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41 Commits
v1.6.4 ... v1.6.8

Author SHA1 Message Date
josc146
549f32a743 release v1.6.8 2024-01-05 13:53:50 +08:00
josc146
e3b3452a73 basic abc frontend support 2024-01-05 13:47:00 +08:00
josc146
62350d975d fix finetune errorsMap ($modelInfo) 2024-01-05 12:46:14 +08:00
josc146
8d84b326b8 basic abc frontend support 2024-01-05 12:45:41 +08:00
josc146
16079a3cba abc music inference support 2024-01-05 12:44:44 +08:00
github-actions[bot]
ff330a5487 release v1.6.7 2023-12-29 04:26:57 +00:00
josc146
94b3882d30 release v1.6.7 2023-12-29 12:26:33 +08:00
josc146
81544ca8b3 rwkv5 lora finetune support (https://github.com/JL-er/RWKV-v5-lora) 2023-12-29 12:23:36 +08:00
josc146
b7f4dd835e chore 2023-12-29 00:38:33 +08:00
josc146
7e2380e4ed fix body.state 2023-12-28 23:53:58 +08:00
josc146
7f3cfd54b0 improve state cache performance 2023-12-28 22:15:31 +08:00
josc146
e083f2c629 webgpu(python) state cache 2023-12-28 20:43:57 +08:00
josc146
e33858f110 improve memory usage and speed of convert_safetensors.py 2023-12-26 23:50:51 +08:00
github-actions[bot]
da01a33152 release v1.6.6 2023-12-25 13:03:06 +00:00
josc146
8ca920a114 release v1.6.6 2023-12-25 21:02:26 +08:00
josc146
5f3d449a66 improve Models page 2023-12-25 20:37:40 +08:00
josc146
13735e7dfb chore 2023-12-25 20:35:00 +08:00
josc146
a38d5c3a25 enable web-rwkv-py turbo 2023-12-25 20:34:35 +08:00
josc146
5bae637c67 update Related Repositories 2023-12-25 20:32:54 +08:00
josc146
12e488ba80 improve strategy 2023-12-25 19:30:57 +08:00
josc146
ad30c63c69 update Writer preset params 2023-12-25 19:30:14 +08:00
josc146
a116eff7df webgpu max_buffer_size 2023-12-25 18:08:13 +08:00
josc146
01bc355dde allow manifest customTokenizer 2023-12-25 16:57:32 +08:00
josc146
8e05f3c360 chore 2023-12-25 16:56:46 +08:00
josc146
fde988dd4e update manifest.json 2023-12-25 16:08:20 +08:00
josc146
91401ad14f * text=auto eol=lf 2023-12-24 22:51:23 +08:00
josc146
280194647c improve refreshRemoteModels 2023-12-22 14:44:27 +08:00
josc146
2e0a542f33 improve train_log.txt creation 2023-12-22 13:00:13 +08:00
josc146
b988694da7 better CopyEmbed 2023-12-22 12:47:26 +08:00
josc146
512c4d0f73 improve role-playing effect 2023-12-22 10:51:09 +08:00
josc146
5525fb1470 chore 2023-12-22 10:49:28 +08:00
josc146
4db735e026 update readme 2023-12-21 13:46:51 +08:00
josc146
c8c79c39d1 Create dependabot.yml 2023-12-21 12:56:21 +08:00
josc146
bcfb76d8ca update readme 2023-12-19 14:59:02 +08:00
josc146
2d9aaf8fc9 update readme 2023-12-18 19:55:25 +08:00
josc146
8a3905c09a reduce precompiled web_rwkv_py size 2023-12-15 16:26:01 +08:00
github-actions[bot]
54cd8a46fa release v1.6.5 2023-12-14 14:09:13 +00:00
josc146
1b83bf261a release v1.6.5 2023-12-14 22:07:17 +08:00
josc146
2a7d22dab1 Composition Option: Only Auto Play Generated Content 2023-12-14 22:06:39 +08:00
josc146
f7494b0cfb update midi_filter_config.json 2023-12-14 21:18:48 +08:00
github-actions[bot]
9ca91d59ec release v1.6.4 2023-12-14 12:40:56 +00:00
62 changed files with 69106 additions and 294 deletions
Expand all files Collapse all files

2
.gitattributes vendored
View File

@@ -1,3 +1,5 @@
* text=auto eol=lf
backend-python/rwkv_pip/** linguist-vendored
backend-python/wkv_cuda_utils/** linguist-vendored
backend-python/get-pip.py linguist-vendored

9
.github/dependabot.yml vendored Normal file
View File

@@ -0,0 +1,9 @@
version: 2
updates:
- package-ecosystem: "github-actions"
directory: "/"
schedule:
interval: "weekly"
commit-message:
prefix: "chore"
include: "scope"

7
CURRENT_CHANGE.md
View File

@@ -1,10 +1,13 @@
## Changes
- WebGPU (Python) strategy
- abc music inference support
- basic abc frontend support
- fix finetune errorsMap ($modelInfo)
## Install
- Windows: https://github.com/josStorer/RWKV-Runner/blob/master/build/windows/Readme_Install.txt
- MacOS: https://github.com/josStorer/RWKV-Runner/blob/master/build/darwin/Readme_Install.txt
- Linux: https://github.com/josStorer/RWKV-Runner/blob/master/build/linux/Readme_Install.txt
- Server-Deploy-Examples: https://github.com/josStorer/RWKV-Runner/tree/master/deploy-examples
- Simple Deploy Example: https://github.com/josStorer/RWKV-Runner/blob/master/README.md#simple-deploy-example
- Server Deploy Examples: https://github.com/josStorer/RWKV-Runner/tree/master/deploy-examples

31
README.md
View File

@@ -47,13 +47,28 @@ English | [简体中文](README_ZH.md) | [日本語](README_JA.md)
</div>
#### Tip: You can deploy [backend-python](./backend-python/) on a server and use this program as a client only. Fill in your server address in the Settings `API URL`.
## Tips
#### Default configs has enabled custom CUDA kernel acceleration, which is much faster and consumes much less VRAM. If you encounter possible compatibility issues (output garbled), go to the Configs page and turn off `Use Custom CUDA kernel to Accelerate`, or try to upgrade your gpu driver.
- You can deploy [backend-python](./backend-python/) on a server and use this program as a client only. Fill in
your server address in the Settings `API URL`.
#### If Windows Defender claims this is a virus, you can try downloading [v1.3.7_win.zip](https://github.com/josStorer/RWKV-Runner/releases/download/v1.3.7/RWKV-Runner_win.zip) and letting it update automatically to the latest version, or add it to the trusted list (`Windows Security` -> `Virus & threat protection` -> `Manage settings` -> `Exclusions` -> `Add or remove exclusions` -> `Add an exclusion` -> `Folder` -> `RWKV-Runner`).
- If you are deploying and providing public services, please limit the request size through API gateway to prevent
excessive resource usage caused by submitting overly long prompts. Additionally, please restrict the upper limit of
requests' max_tokens based on your actual
situation: https://github.com/josStorer/RWKV-Runner/blob/master/backend-python/utils/rwkv.py#L567, the default is set
as le=102400, which may result in significant resource consumption for individual responses in extreme cases.
#### For different tasks, adjusting API parameters can achieve better results. For example, for translation tasks, you can try setting Temperature to 1 and Top_P to 0.3.
- Default configs has enabled custom CUDA kernel acceleration, which is much faster and consumes much less VRAM. If you
encounter possible compatibility issues (output garbled), go to the Configs page and turn
off `Use Custom CUDA kernel to Accelerate`, or try to upgrade your gpu driver.
- If Windows Defender claims this is a virus, you can try
downloading [v1.3.7_win.zip](https://github.com/josStorer/RWKV-Runner/releases/download/v1.3.7/RWKV-Runner_win.zip)
and letting it update automatically to the latest version, or add it to the trusted
list (`Windows Security` -> `Virus & threat protection` -> `Manage settings` -> `Exclusions` -> `Add or remove exclusions` -> `Add an exclusion` -> `Folder` -> `RWKV-Runner`).
- For different tasks, adjusting API parameters can achieve better results. For example, for translation tasks, you can
try setting Temperature to 1 and Top_P to 0.3.
## Features
@@ -168,6 +183,10 @@ Tip: You can download https://github.com/josStorer/sgm_plus and unzip it to the
to use it as an offline sound source. Please note that if you are compiling the program from source code, do not place
it in the source code directory.
If you don't have a MIDI keyboard, you can use virtual MIDI input software like `Virtual Midi Controller 3 LE`, along
with [loopMIDI](https://www.tobias-erichsen.de/wp-content/uploads/2020/01/loopMIDISetup_1_0_16_27.zip), to use a regular
computer keyboard as MIDI input.
### USB MIDI Connection
- USB MIDI devices are plug-and-play, and you can select your input device in the Composition page
@@ -206,12 +225,16 @@ it in the source code directory.
## Related Repositories:
- RWKV-5-World: https://huggingface.co/BlinkDL/rwkv-5-world/tree/main
- RWKV-4-World: https://huggingface.co/BlinkDL/rwkv-4-world/tree/main
- RWKV-4-Raven: https://huggingface.co/BlinkDL/rwkv-4-raven/tree/main
- ChatRWKV: https://github.com/BlinkDL/ChatRWKV
- RWKV-LM: https://github.com/BlinkDL/RWKV-LM
- RWKV-LM-LoRA: https://github.com/Blealtan/RWKV-LM-LoRA
- MIDI-LLM-tokenizer: https://github.com/briansemrau/MIDI-LLM-tokenizer
- ai00_rwkv_server: https://github.com/cgisky1980/ai00_rwkv_server
- rwkv.cpp: https://github.com/saharNooby/rwkv.cpp
- web-rwkv-py: https://github.com/cryscan/web-rwkv-py
## Preview

29
README_JA.md
View File

@@ -47,13 +47,26 @@
</div>
#### ヒント:サーバーに[backend-python](./backend-python/)をデプロイし、このプログラムをクライアントとして使用することができます。設定された`API URL`にサーバーアドレスを入力してください。
## ヒント
#### デフォルトの設定はカスタム CUDA カーネルアクセラレーションを有効にしています。互換性の問題 (文字化けを出力する) が発生する可能性がある場合は、コンフィグページに移動し、`Use Custom CUDA kernel to Accelerate` をオフにしてください、あるいは、GPUドライバーをアップグレードしてみてください。
- サーバーに [backend-python](./backend-python/)
をデプロイし、このプログラムをクライアントとして使用することができます。設定された`API URL`にサーバーアドレスを入力してください。
#### Windows Defender がこれをウイルスだと主張する場合は、[v1.3.7_win.zip](https://github.com/josStorer/RWKV-Runner/releases/download/v1.3.7/RWKV-Runner_win.zip) をダウンロードして最新版に自動更新させるか、信頼済みリストに追加してみてください (`Windows Security` -> `Virus & threat protection` -> `Manage settings` -> `Exclusions` -> `Add or remove exclusions` -> `Add an exclusion` -> `Folder` -> `RWKV-Runner`)。
- もし、あなたがデプロイし、外部に公開するサービスを提供している場合、APIゲートウェイを使用してリクエストのサイズを制限し、
長すぎるプロンプトの提出がリソースを占有しないようにしてください。さらに、実際の状況に応じて、リクエストの max_tokens
の上限を制限してくださいhttps://github.com/josStorer/RWKV-Runner/blob/master/backend-python/utils/rwkv.py#L567
、デフォルトは le=102400 ですが、極端な場合には単一の応答が大量のリソースを消費する可能性があります。
#### 異なるタスクについては、API パラメータを調整することで、より良い結果を得ることができます。例えば、翻訳タスクの場合、Temperature を 1 に、Top_P を 0.3 に設定してみてください。
- デフォルトの設定はカスタム CUDA カーネルアクセラレーションを有効にしています。互換性の問題 (文字化けを出力する)
が発生する可能性がある場合は、コンフィグページに移動し、`Use Custom CUDA kernel to Accelerate`
をオフにしてください、あるいは、GPUドライバーをアップグレードしてみてください。
- Windows Defender
がこれをウイルスだと主張する場合は、[v1.3.7_win.zip](https://github.com/josStorer/RWKV-Runner/releases/download/v1.3.7/RWKV-Runner_win.zip)
をダウンロードして最新版に自動更新させるか、信頼済みリストに追加してみてください (`Windows Security` -> `Virus & threat protection` -> `Manage settings` -> `Exclusions` -> `Add or remove exclusions` -> `Add an exclusion` -> `Folder` -> `RWKV-Runner`)。
- 異なるタスクについては、API パラメータを調整することで、より良い結果を得ることができます。例えば、翻訳タスクの場合、Temperature
を 1 に、Top_P を 0.3 に設定してみてください。
## 特徴
@@ -167,6 +180,10 @@ Tip: You can download https://github.com/josStorer/sgm_plus and unzip it to the
to use it as an offline sound source. Please note that if you are compiling the program from source code, do not place
it in the source code directory.
MIDIキーボードをお持ちでない場合、`Virtual Midi Controller 3 LE`
などの仮想MIDI入力ソフトウェアを使用することができます。[loopMIDI](https://www.tobias-erichsen.de/wp-content/uploads/2020/01/loopMIDISetup_1_0_16_27.zip)
を組み合わせて、通常のコンピュータキーボードをMIDI入力として使用できます。
### USB MIDI Connection
- USB MIDI devices are plug-and-play, and you can select your input device in the Composition page
@@ -205,12 +222,16 @@ it in the source code directory.
## 関連リポジトリ:
- RWKV-5-World: https://huggingface.co/BlinkDL/rwkv-5-world/tree/main
- RWKV-4-World: https://huggingface.co/BlinkDL/rwkv-4-world/tree/main
- RWKV-4-Raven: https://huggingface.co/BlinkDL/rwkv-4-raven/tree/main
- ChatRWKV: https://github.com/BlinkDL/ChatRWKV
- RWKV-LM: https://github.com/BlinkDL/RWKV-LM
- RWKV-LM-LoRA: https://github.com/Blealtan/RWKV-LM-LoRA
- MIDI-LLM-tokenizer: https://github.com/briansemrau/MIDI-LLM-tokenizer
- ai00_rwkv_server: https://github.com/cgisky1980/ai00_rwkv_server
- rwkv.cpp: https://github.com/saharNooby/rwkv.cpp
- web-rwkv-py: https://github.com/cryscan/web-rwkv-py
## Preview

24
README_ZH.md
View File

@@ -46,13 +46,22 @@ API兼容的接口这意味着一切ChatGPT客户端都是RWKV客户端。
</div>
#### 小贴士:你可以在服务器部署[backend-python](./backend-python/),然后将此程序仅用作客户端,在设置的`API URL`中填入你的服务器地址
## 小贴士
#### 预设配置已经开启自定义CUDA算子加速速度更快且显存消耗更少。如果你遇到可能的兼容性(输出乱码)问题,前往配置页面,关闭`使用自定义CUDA算子加速`,或更新你的显卡驱动
- 你可以在服务器部署[backend-python](./backend-python/),然后将此程序仅用作客户端,在设置的`API URL`中填入你的服务器地址
#### 如果Windows Defender说这是一个病毒你可以尝试下载[v1.3.7_win.zip](https://github.com/josStorer/RWKV-Runner/releases/download/v1.3.7/RWKV-Runner_win.zip),然后让其自动更新到最新版,或添加信任 (`Windows Security` -> `Virus & threat protection` -> `Manage settings` -> `Exclusions` -> `Add or remove exclusions` -> `Add an exclusion` -> `Folder` -> `RWKV-Runner`)
- 如果你正在部署并对外提供公开服务请通过API网关限制请求大小避免过长的prompt提交占用资源。此外请根据你的实际情况限制请求的
max_tokens 上限: https://github.com/josStorer/RWKV-Runner/blob/master/backend-python/utils/rwkv.py#L567,
默认le=102400, 这可能导致极端情况下单个响应消耗大量资源
#### 对于不同的任务调整API参数会获得更好的效果例如对于翻译任务你可以尝试设置Temperature为1Top_P为0.3
- 预设配置已经开启自定义CUDA算子加速速度更快且显存消耗更少。如果你遇到可能的兼容性(输出乱码)
问题,前往配置页面,关闭`使用自定义CUDA算子加速`,或更新你的显卡驱动
- 如果 Windows Defender
说这是一个病毒,你可以尝试下载[v1.3.7_win.zip](https://github.com/josStorer/RWKV-Runner/releases/download/v1.3.7/RWKV-Runner_win.zip)
然后让其自动更新到最新版,或添加信任 (`Windows Security` -> `Virus & threat protection` -> `Manage settings` -> `Exclusions` -> `Add or remove exclusions` -> `Add an exclusion` -> `Folder` -> `RWKV-Runner`)
- 对于不同的任务调整API参数会获得更好的效果例如对于翻译任务你可以尝试设置Temperature为1Top_P为0.3
## 功能
@@ -161,6 +170,9 @@ for i in np.argsort(embeddings_cos_sim)[::-1]:
小贴士: 你可以下载 https://github.com/josStorer/sgm_plus, 并解压到程序的`assets/sound-font`目录, 以使用离线音源. 注意,
如果你正在从源码编译程序, 请不要将其放置在源码目录中
如果你没有MIDI键盘, 你可以使用像 `Virtual Midi Controller 3 LE` 这样的虚拟MIDI输入软件,
配合[loopMIDI](https://www.tobias-erichsen.de/wp-content/uploads/2020/01/loopMIDISetup_1_0_16_27.zip), 使用普通电脑键盘作为MIDI输入
### USB MIDI 连接
- USB MIDI设备是即插即用的, 你能够在作曲页面选择你的输入设备
@@ -192,12 +204,16 @@ for i in np.argsort(embeddings_cos_sim)[::-1]:
## 相关仓库:
- RWKV-5-World: https://huggingface.co/BlinkDL/rwkv-5-world/tree/main
- RWKV-4-World: https://huggingface.co/BlinkDL/rwkv-4-world/tree/main
- RWKV-4-Raven: https://huggingface.co/BlinkDL/rwkv-4-raven/tree/main
- ChatRWKV: https://github.com/BlinkDL/ChatRWKV
- RWKV-LM: https://github.com/BlinkDL/RWKV-LM
- RWKV-LM-LoRA: https://github.com/Blealtan/RWKV-LM-LoRA
- MIDI-LLM-tokenizer: https://github.com/briansemrau/MIDI-LLM-tokenizer
- ai00_rwkv_server: https://github.com/cgisky1980/ai00_rwkv_server
- rwkv.cpp: https://github.com/saharNooby/rwkv.cpp
- web-rwkv-py: https://github.com/cryscan/web-rwkv-py
## Preview

9
backend-golang/app.go
View File

@@ -50,9 +50,12 @@ func (a *App) OnStartup(ctx context.Context) {
os.Mkdir(a.exDir+"models", os.ModePerm)
os.Mkdir(a.exDir+"lora-models", os.ModePerm)
os.Mkdir(a.exDir+"finetune/json2binidx_tool/data", os.ModePerm)
f, err := os.Create(a.exDir + "lora-models/train_log.txt")
if err == nil {
f.Close()
trainLogPath := a.exDir + "lora-models/train_log.txt"
if !a.FileExists(trainLogPath) {
f, err := os.Create(trainLogPath)
if err == nil {
f.Close()
}
}
a.downloadLoop()

17
backend-golang/utils.go
View File

@@ -3,6 +3,7 @@ package backend_golang
import (
"archive/zip"
"bufio"
"crypto/sha256"
"embed"
"errors"
"fmt"
@@ -112,9 +113,19 @@ func CopyEmbed(efs embed.FS) error {
return err
}
err = os.WriteFile(path, content, 0644)
if err != nil {
return err
executeWrite := true
existedContent, err := os.ReadFile(path)
if err == nil {
if fmt.Sprintf("%x", sha256.Sum256(existedContent)) == fmt.Sprintf("%x", sha256.Sum256(content)) {
executeWrite = false
}
}
if executeWrite {
err = os.WriteFile(path, content, 0644)
if err != nil {
return err
}
}
return nil

58
backend-python/convert_safetensors.py vendored
View File

@@ -1,9 +1,8 @@
import json
import collections
import numpy
import os
import sys
import copy
import torch
from safetensors.torch import load_file, save_file
from safetensors.torch import serialize_file, load_file
import argparse
@@ -26,7 +25,7 @@ def rename_key(rename, name):
def convert_file(pt_filename: str, sf_filename: str, rename={}, transpose_names=[]):
loaded = torch.load(pt_filename, map_location="cpu")
loaded: collections.OrderedDict = torch.load(pt_filename, map_location="cpu")
if "state_dict" in loaded:
loaded = loaded["state_dict"]
@@ -44,11 +43,9 @@ def convert_file(pt_filename: str, sf_filename: str, rename={}, transpose_names=
if "time_maa" in x:
version = max(6, version)
if version == 5.1 and "midi" in pt_filename.lower():
import numpy as np
print(f"Model detected: v{version:.1f}")
np.set_printoptions(precision=4, suppress=True, linewidth=200)
kk = list(loaded.keys())
if version == 5.1:
_, n_emb = loaded["emb.weight"].shape
for k in kk:
if "time_decay" in k or "time_faaaa" in k:
@@ -57,31 +54,34 @@ def convert_file(pt_filename: str, sf_filename: str, rename={}, transpose_names=
loaded[k].unsqueeze(1).repeat(1, n_emb // loaded[k].shape[0])
)
loaded = {k: v.clone().half() for k, v in loaded.items()}
# for k, v in loaded.items():
# print(f'{k}\t{v.shape}\t{v.dtype}')
loaded = {rename_key(rename, k).lower(): v.contiguous() for k, v in loaded.items()}
# For tensors to be contiguous
for k, v in loaded.items():
for k in kk:
new_k = rename_key(rename, k).lower()
v = loaded[k].half()
del loaded[k]
for transpose_name in transpose_names:
if transpose_name in k:
loaded[k] = v.transpose(0, 1)
loaded = {k: v.clone().half().contiguous() for k, v in loaded.items()}
for k, v in loaded.items():
print(f"{k}\t{v.shape}\t{v.dtype}")
v = v.transpose(0, 1)
print(f"{new_k}\t{v.shape}\t{v.dtype}")
loaded[new_k] = {
"dtype": str(v.dtype).split(".")[-1],
"shape": v.shape,
"data": v.numpy().tobytes(),
}
dirname = os.path.dirname(sf_filename)
os.makedirs(dirname, exist_ok=True)
save_file(loaded, sf_filename, metadata={"format": "pt"})
reloaded = load_file(sf_filename)
for k in loaded:
pt_tensor = loaded[k]
sf_tensor = reloaded[k]
if not torch.equal(pt_tensor, sf_tensor):
raise RuntimeError(f"The output tensors do not match for key {k}")
serialize_file(loaded, sf_filename, metadata={"format": "pt"})
# reloaded = load_file(sf_filename)
# for k in loaded:
# pt_tensor = torch.Tensor(
# numpy.frombuffer(
# bytearray(loaded[k]["data"]),
# dtype=getattr(numpy, loaded[k]["dtype"]),
# ).reshape(loaded[k]["shape"])
# )
# sf_tensor = reloaded[k]
# if not torch.equal(pt_tensor, sf_tensor):
# raise RuntimeError(f"The output tensors do not match for key {k}")
if __name__ == "__main__":

2
backend-python/routes/completion.py
View File

@@ -334,6 +334,8 @@ The following is a coherent verbose detailed conversation between a girl named {
body.stop.append(f"\n\n{bot_code}")
elif body.stop is None:
body.stop = default_stop
if not body.presystem:
body.stop.append("\n\n")
if body.stream:
return EventSourceResponse(

31
backend-python/routes/state_cache.py
View File

@@ -94,28 +94,19 @@ def add_state(body: AddStateBody):
state: Union[Any, None] = None
if body.state is not None:
if type(body.state) == list or type(body.state) == np.ndarray:
devices = [
(
tensor.device
if hasattr(tensor, "device")
else torch.device("cpu")
)
for tensor in body.state
]
state = (
[tensor.cpu() for tensor in body.state]
if hasattr(body.state[0], "device")
else copy.deepcopy(body.state)
)
else:
pass # WebGPU
if type(body.state) == list and hasattr(body.state[0], "device"): # torch
devices = [tensor.device for tensor in body.state]
state = [tensor.cpu() for tensor in body.state]
elif type(body.state) == np.ndarray: # rwkv.cpp
state = body.state
else: # WebGPU
state = body.state.back()
id: int = trie.insert(body.prompt)
dtrie[id] = {
"tokens": copy.deepcopy(body.tokens),
"tokens": body.tokens,
"state": state,
"logits": copy.deepcopy(body.logits),
"logits": body.logits,
"devices": devices,
}
@@ -199,12 +190,12 @@ def longest_prefix_state(body: LongestPrefixStateBody, request: Request):
except:
pass
if id != -1:
prompt: str = trie[id]
v = dtrie[id]
devices: List[torch.device] = v["devices"]
prompt: str = trie[id]
state: Union[Any, None] = v["state"]
if state is not None and type(state) == list and hasattr(state[0], "device"):
if type(state) == list and hasattr(state[0], "device"): # torch
state = [tensor.to(devices[i]) for i, tensor in enumerate(state)]
quick_log(request, body, "Hit:\n" + prompt)

2
backend-python/rwkv_pip/beta/model.py vendored
View File

@@ -251,7 +251,7 @@ class RWKV(MyModule):
)
assert (
w["_strategy"] == args.strategy_string
) # if you are using a new strategy, re-convert the model
), "model has been converted and does not match current strategy; if you are using a new strategy, re-convert the model"
assert (
float(w["_version"]) >= 0.7
) # sometimes you should re-convert using latest convert_model.py

2
backend-python/rwkv_pip/model.py vendored
View File

@@ -342,7 +342,7 @@ class RWKV(MyModule):
)
assert (
w["_strategy"] == args.strategy_string
) # if you are using a new strategy, re-convert the model
), "model has been converted and does not match current strategy; if you are using a new strategy, re-convert the model"
assert (
float(w["_version"]) >= 0.7
) # sometimes you should re-convert using latest convert_model.py

65532
backend-python/rwkv_pip/rwkv_vocab_v20230424_special_token.txt vendored Normal file
View File

File diff suppressed because it is too large Load Diff

21
backend-python/rwkv_pip/utils.py vendored
View File

@@ -34,6 +34,25 @@ class PIPELINE_ARGS:
)
class ABC_TOKENIZER:
def __init__(self):
self.pad_token_id = 0
self.bos_token_id = 2
self.eos_token_id = 3
def encode(self, text):
ids = [ord(c) for c in text]
return ids
def decode(self, ids):
txt = "".join(
chr(idx) if idx > self.eos_token_id else ""
for idx in ids
if idx != self.eos_token_id
)
return txt
class PIPELINE:
def __init__(self, model, WORD_NAME: str):
self.model = model
@@ -48,6 +67,8 @@ class PIPELINE:
self.tokenizer = TRIE_TOKENIZER(
os.path.dirname(os.path.abspath(__file__)) + "/rwkv_vocab_v20230424.txt"
)
elif WORD_NAME == "abc_tokenizer":
self.tokenizer = ABC_TOKENIZER()
else:
if WORD_NAME.endswith(".txt"):
sys.path.insert(0, os.path.dirname(os.path.abspath(__file__)))

9
backend-python/rwkv_pip/webgpu/model.py vendored
View File

@@ -15,7 +15,7 @@ class RWKV:
def __init__(self, model_path: str, strategy: str = None):
self.model = wrp.v5.Model(
model_path,
turbo=False,
turbo=True,
quant=32 if "i8" in strategy else None,
quant_nf4=26 if "i4" in strategy else None,
)
@@ -23,4 +23,9 @@ class RWKV:
self.w["emb.weight"] = [0] * wrp.peek_info(model_path).num_vocab
def forward(self, tokens: List[int], state: Union[Any, None] = None):
return wrp.v5.run_one(self.model, tokens, state)
if type(state).__name__ == "BackedState": # memory state
gpu_state = wrp.v5.ModelState(self.model, 1)
gpu_state.load(state)
else:
gpu_state = state
return wrp.v5.run_one(self.model, tokens, gpu_state)

BIN
backend-python/rwkv_pip/webgpu/web_rwkv_py.cp310-win_amd64.pyd vendored
View File

Binary file not shown.

4
backend-python/utils/midi_filter_config.json
View File

@@ -1,5 +1,5 @@
{
"deduplicate_md5": true,
"piece_split_delay": 10.0,
"min_piece_length": 30.0
"piece_split_delay": 10000,
"min_piece_length": 0
}

59
backend-python/utils/rwkv.py
View File

@@ -11,11 +11,6 @@ from pydantic import BaseModel, Field
from routes import state_cache
import global_var
END_OF_TEXT = 0
END_OF_LINE_DOUBLE = 535
os.environ["TORCH_EXTENSIONS_DIR"] = f"{pathlib.Path(__file__).parent.parent.resolve()}"
@@ -28,6 +23,8 @@ class RWKVType(Enum):
class AbstractRWKV(ABC):
def __init__(self, model, pipeline):
self.EOS_ID = 0
self.name = "rwkv"
self.model = model
self.pipeline = pipeline
@@ -239,9 +236,9 @@ class AbstractRWKV(ABC):
self.model_tokens = []
else:
delta_prompt = prompt[len(cache["prompt"]) :]
self.model_state = copy.deepcopy(cache["state"])
self.model_tokens = copy.deepcopy(cache["tokens"])
logits = copy.deepcopy(cache["logits"])
self.model_state = cache["state"]
self.model_tokens = cache["tokens"]
logits = cache["logits"]
prompt_token_len = 0
if delta_prompt != "":
@@ -274,7 +271,7 @@ class AbstractRWKV(ABC):
logits, temperature=self.temperature, top_p=self.top_p, top_k=self.top_k
)
if token == END_OF_TEXT:
if token == self.EOS_ID:
yield response, "", prompt_token_len, completion_token_len
break
@@ -401,7 +398,7 @@ class TextRWKV(AbstractRWKV):
def fix_tokens(self, tokens) -> List[int]:
if self.rwkv_type == RWKVType.World:
return tokens
if len(tokens) > 0 and tokens[-1] == END_OF_LINE_DOUBLE:
if len(tokens) > 0 and tokens[-1] == 535:
tokens = tokens[:-1] + [self.END_OF_LINE, self.END_OF_LINE]
return tokens
@@ -459,7 +456,7 @@ The following is a coherent verbose detailed conversation between a girl named {
pass
class MusicRWKV(AbstractRWKV):
class MusicMidiRWKV(AbstractRWKV):
def __init__(self, model, pipeline):
super().__init__(model, pipeline)
@@ -501,8 +498,45 @@ class MusicRWKV(AbstractRWKV):
return " " + delta
class MusicAbcRWKV(AbstractRWKV):
def __init__(self, model, pipeline):
super().__init__(model, pipeline)
self.EOS_ID = 3
self.max_tokens_per_generation = 500
self.temperature = 1
self.top_p = 0.8
self.top_k = 8
self.rwkv_type = RWKVType.Music
def adjust_occurrence(self, occurrence: Dict, token: int):
pass
def adjust_forward_logits(self, logits: List[float], occurrence: Dict, i: int):
pass
def fix_tokens(self, tokens) -> List[int]:
return tokens
def run_rnn(
self, _tokens: List[str], newline_adj: int = 0
) -> Tuple[List[float], int]:
tokens = [int(x) for x in _tokens]
token_len = len(tokens)
self.model_tokens += tokens
out, self.model_state = self.model.forward(tokens, self.model_state)
return out, token_len
def delta_postprocess(self, delta: str) -> str:
return delta
def get_tokenizer(tokenizer_len: int):
tokenizer_dir = f"{pathlib.Path(__file__).parent.parent.resolve()}/rwkv_pip/"
if tokenizer_len < 20096:
return "abc_tokenizer"
if tokenizer_len < 50277:
return tokenizer_dir + "tokenizer-midi.json"
elif tokenizer_len < 65536:
@@ -550,7 +584,8 @@ def RWKV(model: str, strategy: str, tokenizer: Union[str, None]) -> AbstractRWKV
rwkv_map: dict[str, Type[AbstractRWKV]] = {
"20B_tokenizer": TextRWKV,
"rwkv_vocab_v20230424": TextRWKV,
"tokenizer-midi": MusicRWKV,
"tokenizer-midi": MusicMidiRWKV,
"abc_tokenizer": MusicAbcRWKV,
}
tokenizer_name = os.path.splitext(os.path.basename(tokenizer))[0]
rwkv: AbstractRWKV

7
exportModelsJson.js
View File

@@ -19,14 +19,15 @@ document.querySelectorAll('.grid.h-10.grid-cols-12.place-content-center.gap-x-3.
if (!data.name.endsWith('.bin') && !data.name.endsWith('.pth'))
return
data.desc = {en: '', zh: ''}
data.desc = { en: '', zh: '', ja: '' }
const rawText = await (await fetch(e.children[1].href.replace('/resolve/', '/raw/'))).text()
data.size = parseInt(extractValue(rawText, 'size'))
data.SHA256 = extractValue(rawText, 'oid sha256:')
data.lastUpdated = e.children[3].children[0].getAttribute('datetime')
data.url = e.children[1].href.replace('/resolve/', '/blob/')
data.downloadUrl = e.children[1].href
data.url = e.children[1].href.replace('/resolve/', '/blob/').replace('?download=true', '')
data.downloadUrl = e.children[1].href.replace('?download=true', '')
data.tags = []
modelsJson.push(data)
})

6
finetune/get_layer_and_embd.py
View File

@@ -32,6 +32,7 @@ cleaner_thread.start()
w = torch.load(model_file, map_location="cpu")
gc.collect()
vocab_size = w["emb.weight"].shape[0]
n_embd = w["emb.weight"].shape[1]
n_layer = 0
keys = list(w.keys())
@@ -52,6 +53,9 @@ for x in keys:
version = max(6, version)
if version <= expected_max_version:
print(f"--n_layer {n_layer} --n_embd {n_embd}", end="")
print(
f"v{int(version)}/train.py --vocab_size {vocab_size} --n_layer {n_layer} --n_embd {n_embd}",
end="",
)
else:
raise Exception(f"RWKV{version} is not supported")

4
finetune/install-wsl-dep-and-train.sh
View File

@@ -47,10 +47,10 @@ else
fi
echo "loading $loadModel"
modelInfo=$(python3 ./finetune/get_layer_and_embd.py $loadModel 4)
modelInfo=$(python3 ./finetune/get_layer_and_embd.py $loadModel 5.2)
echo $modelInfo
if [[ $modelInfo =~ "--n_layer" ]]; then
python3 ./finetune/lora/train.py $modelInfo $@ --proj_dir lora-models --data_type binidx --lora \
python3 ./finetune/lora/$modelInfo $@ --proj_dir lora-models --data_type binidx --lora \
--lora_parts=att,ffn,time,ln --strategy deepspeed_stage_2 --accelerator gpu
else
echo "modelInfo is invalid"

0
finetune/lora/cuda/wkv_cuda.cu → finetune/lora/v4/cuda/wkv_cuda.cu vendored
View File

0
finetune/lora/cuda/wkv_cuda_bf16.cu → finetune/lora/v4/cuda/wkv_cuda_bf16.cu vendored
View File

0
finetune/lora/cuda/wkv_op.cpp → finetune/lora/v4/cuda/wkv_op.cpp vendored
View File

0
finetune/lora/cuda/wkv_op_bf16.cpp → finetune/lora/v4/cuda/wkv_op_bf16.cpp vendored
View File

0
finetune/lora/src/__init__.py → finetune/lora/v4/src/__init__.py vendored
View File

12
finetune/lora/src/binidx.py → finetune/lora/v4/src/binidx.py vendored
View File

@@ -7,6 +7,7 @@ import struct
from functools import lru_cache
from itertools import accumulate
def print_rank_0(*message):
pass
# """If distributed is initialized print only on rank 0."""
@@ -16,12 +17,14 @@ def print_rank_0(*message):
# else:
# print(*message, flush=True)
def _warmup_mmap_file(path):
pass
# with open(path, "rb") as stream:
# while stream.read(100 * 1024 * 1024):
# pass
dtypes = {
1: np.uint8,
2: np.int8,
@@ -33,18 +36,22 @@ dtypes = {
8: np.uint16,
}
def code(dtype):
for k in dtypes.keys():
if dtypes[k] == dtype:
return k
raise ValueError(dtype)
def index_file_path(prefix_path):
return prefix_path + ".idx"
def data_file_path(prefix_path):
return prefix_path + ".bin"
class MMapIndexedDataset(torch.utils.data.Dataset):
class Index(object):
_HDR_MAGIC = b"MMIDIDX\x00\x00"
@@ -100,7 +107,7 @@ class MMapIndexedDataset(torch.utils.data.Dataset):
self._file.close()
return _Writer()
def __init__(self, path, skip_warmup=False):
with open(path, "rb") as stream:
magic_test = stream.read(9)
@@ -217,8 +224,7 @@ class MMapIndexedDataset(torch.utils.data.Dataset):
elif isinstance(idx, slice):
start, stop, step = idx.indices(len(self))
if step != 1:
raise ValueError(
"Slices into indexed_dataset must be contiguous")
raise ValueError("Slices into indexed_dataset must be contiguous")
ptr = self._index._pointers[start]
sizes = self._index._sizes[idx]
offsets = list(accumulate(sizes))

99
finetune/lora/src/dataset.py → finetune/lora/v4/src/dataset.py vendored
View File

@@ -17,9 +17,11 @@ class MyDataset(Dataset):
if args.data_type == "binidx":
self.vocab_size = args.vocab_size
rank_zero_info(f"Current vocab size = {self.vocab_size} (make sure it's correct)")
rank_zero_info(
f"Current vocab size = {self.vocab_size} (make sure it's correct)"
)
if args.data_file.endswith('/'):
if args.data_file.endswith("/"):
d_all = []
for p in os.listdir(args.data_file):
if p.endswith(".idx"):
@@ -29,33 +31,52 @@ class MyDataset(Dataset):
exit(0)
else:
self.data = MMapIndexedDataset(args.data_file)
self.data_size = len(self.data._bin_buffer) // self.data._index._dtype_size
self.data_size = (
len(self.data._bin_buffer) // self.data._index._dtype_size
)
rank_zero_info(f"Data has {self.data_size} tokens.")
if args.my_qa_mask > 0:
self.data_pile = MMapIndexedDataset('/fsx/BlinkDL/pile/pile_20B_tokenizer_text_document')
self.data_pile_size = len(self.data_pile._bin_buffer) // self.data._index._dtype_size
self.data_pile = MMapIndexedDataset(
"/fsx/BlinkDL/pile/pile_20B_tokenizer_text_document"
)
self.data_pile_size = (
len(self.data_pile._bin_buffer) // self.data._index._dtype_size
)
if args.my_pile_stage > 0:
# assert self.data_size == 332115325534 and self.vocab_size == 50277
self.samples_per_epoch = args.epoch_steps * args.real_bsz
assert self.samples_per_epoch == 40320
rank_zero_info(f"########## Pile 20b-tokenized stage {args.my_pile_stage} ##########")
rank_zero_info(
f"########## Pile 20b-tokenized stage {args.my_pile_stage} ##########"
)
dataset_slot = self.data_size // args.ctx_len
if args.my_pile_stage != 4:
assert MaybeIsPrime(args.magic_prime)
assert args.magic_prime % 3 == 2
assert args.magic_prime / dataset_slot > 0.99 and args.magic_prime / dataset_slot <= 1
assert (
args.magic_prime / dataset_slot > 0.99
and args.magic_prime / dataset_slot <= 1
)
elif args.data_type == "numpy":
self.data = np.load(args.data_file).astype("int")
self.vocab_size = args.vocab_size
rank_zero_info("Current vocab size =", self.vocab_size, "(make sure it's correct)")
rank_zero_info(
"Current vocab size =", self.vocab_size, "(make sure it's correct)"
)
self.data_size = len(self.data)
rank_zero_info(f"Data has {self.data_size} tokens.")
elif args.data_type == "uint16":
self.data = np.fromfile(args.data_file, dtype=np.uint16).astype("int32").reshape(-1, args.my_sample_len)
self.data = (
np.fromfile(args.data_file, dtype=np.uint16)
.astype("int32")
.reshape(-1, args.my_sample_len)
)
self.vocab_size = args.vocab_size
rank_zero_info("Current vocab size =", self.vocab_size, "(make sure it's correct)")
rank_zero_info(
"Current vocab size =", self.vocab_size, "(make sure it's correct)"
)
self.data_size = self.data.shape[0]
rank_zero_info(f"Data has {self.data_size} samples.")
elif args.data_type == "wds_img":
@@ -86,10 +107,14 @@ class MyDataset(Dataset):
for u in unique:
xxObj[xx] = u
xx += 1
with open(f"{args.proj_dir}/vocab.json", "w", encoding="utf-16le") as vocab_file:
with open(
f"{args.proj_dir}/vocab.json", "w", encoding="utf-16le"
) as vocab_file:
vocab_file.write(json.dumps(xxObj, ensure_ascii=False))
self.data_size = len(self.data)
rank_zero_info(f"Data has {self.data_size} tokens, {self.vocab_size} vocab size.")
rank_zero_info(
f"Data has {self.data_size} tokens, {self.vocab_size} vocab size."
)
self.stoi = {ch: i for i, ch in enumerate(unique)}
self.itos = {i: ch for i, ch in enumerate(unique)}
@@ -104,36 +129,53 @@ class MyDataset(Dataset):
# print(f"epoch {epoch} idx {idx} rank {rank}/{world_size}")
if args.data_type == "wds_img":
def init_wds(self, bias=0):
def identity(x):
return x
return x
import webdataset as wds
import torchvision.transforms as transforms
# img_transform = transforms.Compose(
# [transforms.CenterCrop(256)]
# )
img_transform = transforms.Compose([
transforms.CenterCrop(512),
transforms.Resize((args.my_img_size))
])
self.data_raw = wds.WebDataset(args.data_file, resampled=True).shuffle(10000, initial=1000, rng=random.Random(epoch*100000+rank+bias*1e9)).decode("torchrgb").to_tuple("jpg", "json", "txt").map_tuple(img_transform, identity, identity)
img_transform = transforms.Compose(
[transforms.CenterCrop(512), transforms.Resize((args.my_img_size))]
)
self.data_raw = (
wds.WebDataset(args.data_file, resampled=True)
.shuffle(
10000,
initial=1000,
rng=random.Random(epoch * 100000 + rank + bias * 1e9),
)
.decode("torchrgb")
.to_tuple("jpg", "json", "txt")
.map_tuple(img_transform, identity, identity)
)
for pp in self.data_raw.pipeline:
if 'Resampled' in str(pp):
if "Resampled" in str(pp):
pp.deterministic = True
def worker_seed():
return rank*100000+epoch+bias*1e9
return rank * 100000 + epoch + bias * 1e9
pp.worker_seed = worker_seed
self.data = iter(self.data_raw)
# print(f"WebDataset loaded for rank {rank} epoch {epoch}")
if self.data == None:
init_wds(self)
trial = 0
while trial < 10:
try:
dd = next(self.data) # jpg, json, txt
dd = next(self.data) # jpg, json, txt
break
except:
print(f'[dataloader error - epoch {epoch} rank {rank} - trying a new shuffle]')
print(
f"[dataloader error - epoch {epoch} rank {rank} - trying a new shuffle]"
)
self.error_count += 1
init_wds(self, self.error_count)
trial += 1
@@ -144,7 +186,7 @@ class MyDataset(Dataset):
return dd[0], dd[2]
else:
if args.data_type == "uint16":
i = np.random.randint(0, self.data_size-1)
i = np.random.randint(0, self.data_size - 1)
dix = self.data[i]
x = torch.tensor(dix[:-1], dtype=torch.long)
y = torch.tensor(dix[1:], dtype=torch.long)
@@ -196,7 +238,12 @@ class MyDataset(Dataset):
z_sum = 0
isGood = False
for i in range(3, ctx_len):
if dix[i] == 27 and dix[i-1] == 34 and dix[i-2] == 187 and dix[i-3] == 187:
if (
dix[i] == 27
and dix[i - 1] == 34
and dix[i - 2] == 187
and dix[i - 3] == 187
):
isGood = True
if dix[i] == 0:
isGood = False
@@ -206,7 +253,9 @@ class MyDataset(Dataset):
if z_sum == 0:
z = [1] * ctx_len
i = np.random.randint(0, self.data_pile_size - req_len)
dix = self.data_pile.get(idx=0, offset=i, length=req_len).astype(int)
dix = self.data_pile.get(
idx=0, offset=i, length=req_len
).astype(int)
z = torch.tensor(z, dtype=torch.bfloat16)
x = torch.tensor(dix[:-1], dtype=torch.long)

317
finetune/lora/src/model.py → finetune/lora/v4/src/model.py vendored
View File

@@ -5,6 +5,7 @@
import functools
import os, math, gc, importlib
import torch
# torch._C._jit_set_profiling_executor(True)
# torch._C._jit_set_profiling_mode(True)
import torch.nn as nn
@@ -13,7 +14,8 @@ from torch.nn import functional as F
import pytorch_lightning as pl
from pytorch_lightning.utilities import rank_zero_info, rank_zero_only
from pytorch_lightning.strategies import DeepSpeedStrategy
if importlib.util.find_spec('deepspeed'):
if importlib.util.find_spec("deepspeed"):
import deepspeed
from deepspeed.ops.adam import DeepSpeedCPUAdam, FusedAdam
@@ -28,9 +30,10 @@ LORA_CONFIG = {
try:
print('RWKV_MY_TESTING', os.environ["RWKV_MY_TESTING"])
print("RWKV_MY_TESTING", os.environ["RWKV_MY_TESTING"])
except:
os.environ["RWKV_MY_TESTING"] = ''
os.environ["RWKV_MY_TESTING"] = ""
def __nop(ob):
return ob
@@ -53,7 +56,26 @@ T_MAX = int(os.environ["RWKV_T_MAX"]) # TAKES LOTS OF VRAM!
from torch.utils.cpp_extension import load
if os.environ["RWKV_FLOAT_MODE"] == "bf16":
wkv_cuda = load(name=f"wkv_{T_MAX}_bf16", sources=["finetune/lora/cuda/wkv_op_bf16.cpp", "finetune/lora/cuda/wkv_cuda_bf16.cu"], verbose=True, extra_cuda_cflags=["-t 4", "-std=c++17", "-res-usage", "--maxrregcount 60", "--use_fast_math", "-O3", "-Xptxas -O3", "--extra-device-vectorization", f"-DTmax={T_MAX}"])
wkv_cuda = load(
name=f"wkv_{T_MAX}_bf16",
sources=[
"finetune/lora/v4/cuda/wkv_op_bf16.cpp",
"finetune/lora/v4/cuda/wkv_cuda_bf16.cu",
],
verbose=True,
extra_cuda_cflags=[
"-t 4",
"-std=c++17",
"-res-usage",
"--maxrregcount 60",
"--use_fast_math",
"-O3",
"-Xptxas -O3",
"--extra-device-vectorization",
f"-DTmax={T_MAX}",
],
)
class WKV(torch.autograd.Function):
@staticmethod
def forward(ctx, B, T, C, w, u, k, v):
@@ -66,10 +88,16 @@ if os.environ["RWKV_FLOAT_MODE"] == "bf16":
u = u.contiguous()
k = k.contiguous()
v = v.contiguous()
y = torch.empty((B, T, C), device=w.device, memory_format=torch.contiguous_format, dtype=torch.bfloat16)
y = torch.empty(
(B, T, C),
device=w.device,
memory_format=torch.contiguous_format,
dtype=torch.bfloat16,
)
wkv_cuda.forward(B, T, C, w, u, k, v, y)
ctx.save_for_backward(w, u, k, v, y)
return y
@staticmethod
def backward(ctx, gy):
B = ctx.B
@@ -78,16 +106,54 @@ if os.environ["RWKV_FLOAT_MODE"] == "bf16":
assert T <= T_MAX
assert B * C % min(C, 32) == 0
w, u, k, v, y = ctx.saved_tensors
gw = torch.empty((B, C), device=gy.device, memory_format=torch.contiguous_format, dtype=torch.bfloat16)
gu = torch.empty((B, C), device=gy.device, memory_format=torch.contiguous_format, dtype=torch.bfloat16)
gk = torch.empty((B, T, C), device=gy.device, memory_format=torch.contiguous_format, dtype=torch.bfloat16)
gv = torch.empty((B, T, C), device=gy.device, memory_format=torch.contiguous_format, dtype=torch.bfloat16)
gw = torch.empty(
(B, C),
device=gy.device,
memory_format=torch.contiguous_format,
dtype=torch.bfloat16,
)
gu = torch.empty(
(B, C),
device=gy.device,
memory_format=torch.contiguous_format,
dtype=torch.bfloat16,
)
gk = torch.empty(
(B, T, C),
device=gy.device,
memory_format=torch.contiguous_format,
dtype=torch.bfloat16,
)
gv = torch.empty(
(B, T, C),
device=gy.device,
memory_format=torch.contiguous_format,
dtype=torch.bfloat16,
)
wkv_cuda.backward(B, T, C, w, u, k, v, y, gy.contiguous(), gw, gu, gk, gv)
gw = torch.sum(gw, dim=0)
gu = torch.sum(gu, dim=0)
return (None, None, None, gw, gu, gk, gv)
else:
wkv_cuda = load(name=f"wkv_{T_MAX}", sources=["finetune/lora/cuda/wkv_op.cpp", "finetune/lora/cuda/wkv_cuda.cu"], verbose=True, extra_cuda_cflags=["-res-usage", "--maxrregcount 60", "--use_fast_math", "-O3", "-Xptxas -O3", "--extra-device-vectorization", f"-DTmax={T_MAX}"])
wkv_cuda = load(
name=f"wkv_{T_MAX}",
sources=[
"finetune/lora/v4/cuda/wkv_op.cpp",
"finetune/lora/v4/cuda/wkv_cuda.cu",
],
verbose=True,
extra_cuda_cflags=[
"-res-usage",
"--maxrregcount 60",
"--use_fast_math",
"-O3",
"-Xptxas -O3",
"--extra-device-vectorization",
f"-DTmax={T_MAX}",
],
)
class WKV(torch.autograd.Function):
@staticmethod
def forward(ctx, B, T, C, w, u, k, v):
@@ -106,7 +172,9 @@ else:
u = u.float().contiguous()
k = k.float().contiguous()
v = v.float().contiguous()
y = torch.empty((B, T, C), device=w.device, memory_format=torch.contiguous_format)
y = torch.empty(
(B, T, C), device=w.device, memory_format=torch.contiguous_format
)
wkv_cuda.forward(B, T, C, w, u, k, v, y)
ctx.save_for_backward(w, u, k, v, y)
if "32" in os.environ["RWKV_FLOAT_MODE"]:
@@ -115,6 +183,7 @@ else:
return y.half()
elif os.environ["RWKV_FLOAT_MODE"] == "bf16":
return y.bfloat16()
@staticmethod
def backward(ctx, gy):
B = ctx.B
@@ -123,14 +192,26 @@ else:
assert T <= T_MAX
assert B * C % min(C, 32) == 0
w, u, k, v, y = ctx.saved_tensors
gw = torch.empty((B, C), device=gy.device, memory_format=torch.contiguous_format)
gu = torch.empty((B, C), device=gy.device, memory_format=torch.contiguous_format)
gk = torch.empty((B, T, C), device=gy.device, memory_format=torch.contiguous_format)
gv = torch.empty((B, T, C), device=gy.device, memory_format=torch.contiguous_format)
gw = torch.empty(
(B, C), device=gy.device, memory_format=torch.contiguous_format
)
gu = torch.empty(
(B, C), device=gy.device, memory_format=torch.contiguous_format
)
gk = torch.empty(
(B, T, C), device=gy.device, memory_format=torch.contiguous_format
)
gv = torch.empty(
(B, T, C), device=gy.device, memory_format=torch.contiguous_format
)
if "32" in os.environ["RWKV_FLOAT_MODE"]:
wkv_cuda.backward(B, T, C, w, u, k, v, y, gy.contiguous(), gw, gu, gk, gv)
wkv_cuda.backward(
B, T, C, w, u, k, v, y, gy.contiguous(), gw, gu, gk, gv
)
else:
wkv_cuda.backward(B, T, C, w, u, k, v, y, gy.float().contiguous(), gw, gu, gk, gv)
wkv_cuda.backward(
B, T, C, w, u, k, v, y, gy.float().contiguous(), gw, gu, gk, gv
)
gw = torch.sum(gw, dim=0)
gu = torch.sum(gu, dim=0)
if "32" in os.environ["RWKV_FLOAT_MODE"]:
@@ -138,7 +219,15 @@ else:
elif os.environ["RWKV_FLOAT_MODE"] == "fp16":
return (None, None, None, gw.half(), gu.half(), gk.half(), gv.half())
elif os.environ["RWKV_FLOAT_MODE"] == "bf16":
return (None, None, None, gw.bfloat16(), gu.bfloat16(), gk.bfloat16(), gv.bfloat16())
return (
None,
None,
None,
gw.bfloat16(),
gu.bfloat16(),
gk.bfloat16(),
gv.bfloat16(),
)
def RUN_CUDA(B, T, C, w, u, k, v):
@@ -151,15 +240,17 @@ def RUN_CUDA(B, T, C, w, u, k, v):
class LoraLinear(nn.Module):
def __init__(self, in_features: int, out_features: int, bias: bool):
super().__init__()
self.weight = nn.Parameter(torch.empty((out_features, in_features)))
assert bias == False, "Biased LoraLinear not supported"
r, alpha, dropout = LORA_CONFIG["r"], LORA_CONFIG[
"alpha"], LORA_CONFIG["dropout"]
r, alpha, dropout = (
LORA_CONFIG["r"],
LORA_CONFIG["alpha"],
LORA_CONFIG["dropout"],
)
self.lora_A = nn.Parameter(torch.empty(r, in_features))
self.lora_B = nn.Parameter(torch.empty(out_features, r))
self.lora_dropout = nn.Dropout(dropout)
@@ -170,9 +261,9 @@ class LoraLinear(nn.Module):
nn.init.zeros_(self.lora_B)
def forward(self, x):
return (
F.linear(x, self.weight) + self.scaling *
F.linear(F.linear(self.lora_dropout(x), self.lora_A), self.lora_B))
return F.linear(x, self.weight) + self.scaling * F.linear(
F.linear(self.lora_dropout(x), self.lora_A), self.lora_B
)
@functools.wraps(LoraLinear)
@@ -214,17 +305,23 @@ class RWKV_TimeMix(MyModule):
# fancy time_decay
decay_speed = torch.ones(args.dim_att)
for h in range(args.dim_att):
decay_speed[h] = -5 + 8 * (h / (args.dim_att - 1)) ** (0.7 + 1.3 * ratio_0_to_1)
decay_speed[h] = -5 + 8 * (h / (args.dim_att - 1)) ** (
0.7 + 1.3 * ratio_0_to_1
)
self.time_decay = nn.Parameter(decay_speed)
# print(layer_id, self.time_decay.flatten()[:3].cpu().numpy(), '...', self.time_decay.flatten()[-3:].cpu().numpy())
# fancy time_first
zigzag = torch.tensor([(i + 1) % 3 - 1 for i in range(args.dim_att)]) * 0.5
self.time_first = nn.Parameter(torch.ones(args.dim_att) * math.log(0.3) + zigzag)
self.time_first = nn.Parameter(
torch.ones(args.dim_att) * math.log(0.3) + zigzag
)
# fancy time_mix
self.time_mix_k = nn.Parameter(torch.pow(ddd, ratio_1_to_almost0))
self.time_mix_v = nn.Parameter(torch.pow(ddd, ratio_1_to_almost0) + 0.3 * ratio_0_to_1)
self.time_mix_v = nn.Parameter(
torch.pow(ddd, ratio_1_to_almost0) + 0.3 * ratio_0_to_1
)
self.time_mix_r = nn.Parameter(torch.pow(ddd, 0.5 * ratio_1_to_almost0))
self.time_shift = nn.ZeroPad2d((0, 0, 1, -1))
@@ -235,8 +332,10 @@ class RWKV_TimeMix(MyModule):
self.output = nn.Linear(args.dim_att, args.n_embd, bias=False)
if 'a' in os.environ["RWKV_MY_TESTING"]:
self.register_buffer("att_mask", torch.tril(torch.ones(args.ctx_len, args.ctx_len)))
if "a" in os.environ["RWKV_MY_TESTING"]:
self.register_buffer(
"att_mask", torch.tril(torch.ones(args.ctx_len, args.ctx_len))
)
d_qkv = args.n_embd // 16
self.qq = nn.Linear(args.n_embd, d_qkv, bias=False)
self.kk = nn.Linear(args.n_embd, d_qkv, bias=False)
@@ -245,12 +344,17 @@ class RWKV_TimeMix(MyModule):
with torch.no_grad():
self.time_mix_qq = nn.Parameter(torch.pow(ddd, ratio_1_to_almost0))
self.time_mix_kk = nn.Parameter(torch.pow(ddd, ratio_1_to_almost0))
self.time_mix_vv = nn.Parameter(torch.pow(ddd, ratio_1_to_almost0) + 0.3 * ratio_0_to_1)
self.time_mix_vv = nn.Parameter(
torch.pow(ddd, ratio_1_to_almost0) + 0.3 * ratio_0_to_1
)
if "a" not in os.environ["RWKV_MY_TESTING"]:
if 'a' not in os.environ["RWKV_MY_TESTING"]:
@MyFunction
def jit_func(self, x):
xx = self.time_shift(x) # Mix x with the previous timestep to produce xk, xv, xr
xx = self.time_shift(
x
) # Mix x with the previous timestep to produce xk, xv, xr
xk = x * self.time_mix_k + xx * (1 - self.time_mix_k)
xv = x * self.time_mix_v + xx * (1 - self.time_mix_v)
xr = x * self.time_mix_r + xx * (1 - self.time_mix_r)
@@ -263,21 +367,26 @@ class RWKV_TimeMix(MyModule):
def forward(self, x):
B, T, C = x.size() # x = (Batch,Time,Channel)
sr, k, v = self.jit_func(x)
rwkv = sr * RUN_CUDA(B, T, self.args.dim_att, self.time_decay, self.time_first, k, v)
rwkv = sr * RUN_CUDA(
B, T, self.args.dim_att, self.time_decay, self.time_first, k, v
)
return self.output(rwkv)
if 'a' in os.environ["RWKV_MY_TESTING"]:
if "a" in os.environ["RWKV_MY_TESTING"]:
@MyFunction
def QKV(self, q, k, v):
att = (q @ k.transpose(-2, -1)) * (1.0 / math.sqrt(k.size(-1)))
att = att.masked_fill(self.att_mask == 0, float('-inf'))
att = F.softmax(att, dim = -1)
att = att.masked_fill(self.att_mask == 0, float("-inf"))
att = F.softmax(att, dim=-1)
x = att @ v
return x
@MyFunction
def jit_funcQKV(self, x):
xx = self.time_shift(x) # Mix x with the previous timestep to produce xk, xv, xr
xx = self.time_shift(
x
) # Mix x with the previous timestep to produce xk, xv, xr
xk = x * self.time_mix_k + xx * (1 - self.time_mix_k)
xv = x * self.time_mix_v + xx * (1 - self.time_mix_v)
xr = x * self.time_mix_r + xx * (1 - self.time_mix_r)
@@ -296,12 +405,16 @@ class RWKV_TimeMix(MyModule):
def forward(self, x):
B, T, C = x.size() # x = (Batch,Time,Channel)
sr, k, v, qq, kk, vv = self.jit_funcQKV(x)
rwkv = sr * RUN_CUDA(B, T, self.args.dim_att, self.time_decay, self.time_first, k, v)
rwkv = sr * RUN_CUDA(
B, T, self.args.dim_att, self.time_decay, self.time_first, k, v
)
rwkv = self.output(rwkv) + self.oo(self.QKV(qq, kk, vv))
return rwkv
########################################################################################################
class RWKV_ChannelMix(MyModule):
def __init__(self, args, layer_id):
super().__init__()
@@ -331,6 +444,7 @@ class RWKV_ChannelMix(MyModule):
kv = self.value(k)
return torch.sigmoid(self.receptance(xr)) * kv
class MishGLU(MyModule):
def __init__(self, args, layer_id):
super().__init__()
@@ -360,6 +474,7 @@ class MishGLU(MyModule):
b = self.bb(xb)
return self.value(a * F.mish(b))
########################################################################################################
# The RWKV Model with our blocks
########################################################################################################
@@ -377,15 +492,19 @@ class Block(nn.Module):
if self.layer_id == 0:
self.ln0 = nn.LayerNorm(args.n_embd)
if args.my_pos_emb > 0:
self.pos_emb_x = nn.Parameter(torch.zeros((1,args.my_pos_emb,args.n_embd)))
self.pos_emb_y = nn.Parameter(torch.zeros((args.my_pos_emb,1,args.n_embd)))
self.pos_emb_x = nn.Parameter(
torch.zeros((1, args.my_pos_emb, args.n_embd))
)
self.pos_emb_y = nn.Parameter(
torch.zeros((args.my_pos_emb, 1, args.n_embd))
)
if self.layer_id == 0 and self.args.pre_ffn > 0:
self.ffnPre = RWKV_ChannelMix(args, 0)
else:
self.att = RWKV_TimeMix(args, layer_id)
if 'g' in os.environ["RWKV_MY_TESTING"]:
if "g" in os.environ["RWKV_MY_TESTING"]:
self.ffn = MishGLU(args, layer_id)
else:
self.ffn = RWKV_ChannelMix(args, layer_id)
@@ -395,7 +514,9 @@ class Block(nn.Module):
self.tiny_q = nn.Linear(args.n_embd, args.tiny_att_dim, bias=False)
self.tiny_k = nn.Linear(args.n_embd, args.tiny_att_dim, bias=False)
self.tiny_v = nn.Linear(args.n_embd, args.n_embd, bias=False)
self.register_buffer("tiny_mask", torch.tril(torch.ones(args.ctx_len, args.ctx_len)))
self.register_buffer(
"tiny_mask", torch.tril(torch.ones(args.ctx_len, args.ctx_len))
)
def forward(self, x, x_emb=None):
args = self.args
@@ -403,7 +524,7 @@ class Block(nn.Module):
if self.layer_id == 0:
x = self.ln0(x)
if args.my_pos_emb > 0:
pos_emb = (self.pos_emb_x + self.pos_emb_y).reshape(T+1, -1)[:-1,:]
pos_emb = (self.pos_emb_x + self.pos_emb_y).reshape(T + 1, -1)[:-1, :]
x = x + pos_emb
if self.layer_id == 0 and args.pre_ffn > 0:
@@ -443,13 +564,13 @@ class RWKV(pl.LightningModule):
def __init__(self, args):
super().__init__()
self.args = args
if not hasattr(args, 'dim_att'):
if not hasattr(args, "dim_att"):
args.dim_att = args.n_embd
if not hasattr(args, 'dim_ffn'):
if not hasattr(args, "dim_ffn"):
args.dim_ffn = args.n_embd * 4
if not hasattr(args, 'tiny_att_layer'):
if not hasattr(args, "tiny_att_layer"):
args.tiny_att_layer = -1
if not hasattr(args, 'tiny_att_dim'):
if not hasattr(args, "tiny_att_dim"):
args.tiny_att_dim = -1
self.emb = nn.Embedding(args.vocab_size, args.n_embd)
@@ -462,7 +583,9 @@ class RWKV(pl.LightningModule):
if args.head_qk > 0:
self.head_q = nn.Linear(args.n_embd, args.head_qk, bias=False)
self.head_k = nn.Linear(args.n_embd, args.head_qk, bias=False)
self.register_buffer("copy_mask", torch.tril(torch.ones(args.ctx_len, args.ctx_len)))
self.register_buffer(
"copy_mask", torch.tril(torch.ones(args.ctx_len, args.ctx_len))
)
def configure_optimizers(self):
args = self.args
@@ -494,19 +617,46 @@ class RWKV(pl.LightningModule):
param_dict = {n: p for n, p in self.named_parameters()}
if args.my_pile_stage == 2:
optim_groups = [
{"params": [param_dict[n] for n in lr_1x], "weight_decay": 0.0, "my_lr_scale": 1.0},
{"params": [param_dict[n] for n in lr_2x], "weight_decay": 0.0, "my_lr_scale": 5.0},# test: 2e-3 / args.lr_init},
{"params": [param_dict[n] for n in lr_3x], "weight_decay": 0.0, "my_lr_scale": 5.0},# test: 3e-3 / args.lr_init},
{
"params": [param_dict[n] for n in lr_1x],
"weight_decay": 0.0,
"my_lr_scale": 1.0,
},
{
"params": [param_dict[n] for n in lr_2x],
"weight_decay": 0.0,
"my_lr_scale": 5.0,
}, # test: 2e-3 / args.lr_init},
{
"params": [param_dict[n] for n in lr_3x],
"weight_decay": 0.0,
"my_lr_scale": 5.0,
}, # test: 3e-3 / args.lr_init},
]
else:
optim_groups = [
{"params": [param_dict[n] for n in lr_1x], "weight_decay": 0.0, "my_lr_scale": 1.0},
{"params": [param_dict[n] for n in lr_2x], "weight_decay": 0.0, "my_lr_scale": 2.0},
{"params": [param_dict[n] for n in lr_3x], "weight_decay": 0.0, "my_lr_scale": 3.0},
{
"params": [param_dict[n] for n in lr_1x],
"weight_decay": 0.0,
"my_lr_scale": 1.0,
},
{
"params": [param_dict[n] for n in lr_2x],
"weight_decay": 0.0,
"my_lr_scale": 2.0,
},
{
"params": [param_dict[n] for n in lr_3x],
"weight_decay": 0.0,
"my_lr_scale": 3.0,
},
]
else:
optim_groups = [
{"params": [p for n, p in self.named_parameters()], "weight_decay": 0.0},
{
"params": [p for n, p in self.named_parameters()],
"weight_decay": 0.0,
},
]
for g in optim_groups:
@@ -514,8 +664,26 @@ class RWKV(pl.LightningModule):
optim_groups = [g for g in optim_groups if len(g["params"]) > 0]
if self.deepspeed_offload:
return DeepSpeedCPUAdam(optim_groups, lr=self.args.lr_init, betas=self.args.betas, eps=self.args.adam_eps, bias_correction=True, adamw_mode=False, weight_decay=0, amsgrad=False)
return FusedAdam(optim_groups, lr=self.args.lr_init, betas=self.args.betas, eps=self.args.adam_eps, bias_correction=True, adam_w_mode=False, weight_decay=0, amsgrad=False)
return DeepSpeedCPUAdam(
optim_groups,
lr=self.args.lr_init,
betas=self.args.betas,
eps=self.args.adam_eps,
bias_correction=True,
adamw_mode=False,
weight_decay=0,
amsgrad=False,
)
return FusedAdam(
optim_groups,
lr=self.args.lr_init,
betas=self.args.betas,
eps=self.args.adam_eps,
bias_correction=True,
adam_w_mode=False,
weight_decay=0,
amsgrad=False,
)
# return ZeroOneAdam(optim_groups, lr=self.args.lr_init, betas=self.args.betas, eps=self.args.adam_eps, bias_correction=True, weight_decay=0, amsgrad=False, cuda_aware=False)
@property
@@ -589,10 +757,14 @@ class RWKV(pl.LightningModule):
logits = self(idx)
if sum_mask == mask.shape[0]:
loss = F.cross_entropy(logits.view(-1, logits.size(-1)), targets.view(-1))
loss = F.cross_entropy(
logits.view(-1, logits.size(-1)), targets.view(-1)
)
# print('rank', self.global_rank, 'loss', loss.item())
else:
loss = F.cross_entropy(logits.view(-1, logits.size(-1)), targets.view(-1), reduction='none')
loss = F.cross_entropy(
logits.view(-1, logits.size(-1)), targets.view(-1), reduction="none"
)
# loss_raw = loss
loss = torch.sum(loss * mask) / sum_mask
@@ -632,7 +804,14 @@ class RWKV(pl.LightningModule):
gain = 1.0
scale = 1.0
if "ln_" in n or ".ln" in n or "time_" in n or "_mask" in n or "pos_emb" in n or '.mask.' in n:
if (
"ln_" in n
or ".ln" in n
or "time_" in n
or "_mask" in n
or "pos_emb" in n
or ".mask." in n
):
m[n] = p
else:
if n == "emb.weight":
@@ -640,7 +819,19 @@ class RWKV(pl.LightningModule):
else:
if shape[0] > shape[1]:
gain = math.sqrt(shape[0] / shape[1])
for kk in [".att.key.", ".att.receptance.", ".att.output.", ".att.key.", ".ffn.value.", ".ffn.receptance.", ".ffnPre.value.", ".ffnPre.receptance.", "head_q.", '.oo.', '.rr.']:
for kk in [
".att.key.",
".att.receptance.",
".att.output.",
".att.key.",
".ffn.value.",
".ffn.receptance.",
".ffnPre.value.",
".ffnPre.receptance.",
"head_q.",
".oo.",
".rr.",
]:
if kk in n:
scale = 0
if n == "head.weight":
@@ -650,7 +841,9 @@ class RWKV(pl.LightningModule):
if "head_q." in n:
scale = 0
print(f"{str(shape[0]).ljust(5)} {str(shape[1]).ljust(5)} {str(scale).ljust(4)} {n}")
print(
f"{str(shape[0]).ljust(5)} {str(shape[1]).ljust(5)} {str(scale).ljust(4)} {n}"
)
if self.args.accelerator.upper() == "GPU":
m[n] = torch.empty((shape[0], shape[1]), device="cuda")

65
finetune/lora/src/trainer.py → finetune/lora/v4/src/trainer.py vendored
View File

@@ -5,15 +5,17 @@ import pytorch_lightning as pl
from pytorch_lightning.utilities import rank_zero_info, rank_zero_only
from .model import LORA_CONFIG
def my_save(dd, ff):
if '14b-run1' not in ff:
if "14b-run1" not in ff:
torch.save(dd, ff)
else:
fn = ff.split('/')[-1]
fff = '/dev/shm/' + fn
fn = ff.split("/")[-1]
fff = "/dev/shm/" + fn
torch.save(dd, fff)
subprocess.Popen(f" aws s3 mv {fff} s3://rwkv-14b-4k/{fn} --quiet", shell=True)
class train_callback(pl.Callback):
def __init__(self, args):
super().__init__()
@@ -38,7 +40,9 @@ class train_callback(pl.Callback):
if args.lr_final == 0 or args.lr_init == 0: # linear decay
lr = args.lr_init + (args.lr_final - args.lr_init) * progress
else: # exp decay
lr = args.lr_init * math.exp(math.log(args.lr_final / args.lr_init) * pow(progress, 1))
lr = args.lr_init * math.exp(
math.log(args.lr_final / args.lr_init) * pow(progress, 1)
)
if trainer.global_step < w_step:
lr = lr * (0.2 + 0.8 * trainer.global_step / w_step)
@@ -60,7 +64,9 @@ class train_callback(pl.Callback):
trainer.my_loss_sum = 0
trainer.my_loss_count = 0
trainer.my_log = open(args.proj_dir + "/train_log.txt", "a")
trainer.my_log.write(f"NEW RUN {args.my_timestamp}\n{vars(self.args)}\n")
trainer.my_log.write(
f"NEW RUN {args.my_timestamp}\n{vars(self.args)}\n"
)
try:
print(f"\n{trainer.strategy.config}\n")
trainer.my_log.write(f"{trainer.strategy.config}\n")
@@ -70,6 +76,7 @@ class train_callback(pl.Callback):
if len(args.wandb) > 0:
print("Login to wandb...")
import wandb
wandb.init(
project=args.wandb,
name=args.run_name + " " + args.my_timestamp,
@@ -102,20 +109,26 @@ class train_callback(pl.Callback):
# self.log("s", real_step, prog_bar=True, on_step=True)
if len(args.wandb) > 0:
lll = {"loss": trainer.my_loss, "lr": trainer.my_lr, "Gtokens": real_step * token_per_step / 1e9}
lll = {
"loss": trainer.my_loss,
"lr": trainer.my_lr,
"Gtokens": real_step * token_per_step / 1e9,
}
if kt_s > 0:
lll["kt/s"] = kt_s
trainer.my_wandb.log(lll, step=int(real_step))
if args.magic_prime > 0:
expand_factor = 2 if args.my_qa_mask > 0 else 1
if int(real_step) == int(args.magic_prime * expand_factor // args.real_bsz) - 1:
if (
int(real_step)
== int(args.magic_prime * expand_factor // args.real_bsz) - 1
):
to_save_dict = pl_module.state_dict()
my_save(
to_save_dict,
f"{args.proj_dir}/rwkv-final.pth",
)
def on_train_epoch_start(self, trainer, pl_module):
args = self.args
dataset = trainer.train_dataloader.dataset.datasets
@@ -128,24 +141,28 @@ class train_callback(pl.Callback):
def on_train_epoch_end(self, trainer, pl_module):
args = self.args
if trainer.is_global_zero: # logging & save state_dict
if (args.epoch_save > 0 and trainer.current_epoch % args.epoch_save == 0) or trainer.current_epoch == args.epoch_count - 1:
if args.data_type == 'wds_img':
if (
args.epoch_save > 0 and trainer.current_epoch % args.epoch_save == 0
) or trainer.current_epoch == args.epoch_count - 1:
if args.data_type == "wds_img":
raw_dict = pl_module.state_dict()
to_save_dict = {}
for k in raw_dict:
if k.startswith('encoder.') or k.startswith('decoder.'):
if k.startswith("encoder.") or k.startswith("decoder."):
to_save_dict[k] = raw_dict[k]
else:
to_save_dict = pl_module.state_dict()
if args.lora:
enable_time_finetune = 'time' in LORA_CONFIG["parts"]
enable_ln_finetune = 'ln' in LORA_CONFIG["parts"]
enable_time_finetune = "time" in LORA_CONFIG["parts"]
enable_ln_finetune = "ln" in LORA_CONFIG["parts"]
lora_dict = {}
for name, state in to_save_dict.items():
if ('.lora_' in name
or (enable_time_finetune and '.time_' in name)
or (enable_ln_finetune and '.ln' in name)):
if (
".lora_" in name
or (enable_time_finetune and ".time_" in name)
or (enable_ln_finetune and ".ln" in name)
):
lora_dict[name] = state
to_save_dict = lora_dict
@@ -155,8 +172,10 @@ class train_callback(pl.Callback):
f"{args.proj_dir}/rwkv-{args.epoch_begin + trainer.current_epoch}.pth",
)
except Exception as e:
print('Error\n\n', e, '\n\n')
trainer.my_log.write(f"{args.epoch_begin + trainer.current_epoch} {trainer.my_epoch_loss:.6f} {math.exp(trainer.my_epoch_loss):.4f} {trainer.my_lr:.8f} {datetime.datetime.now()} {trainer.current_epoch}\n")
print("Error\n\n", e, "\n\n")
trainer.my_log.write(
f"{args.epoch_begin + trainer.current_epoch} {trainer.my_epoch_loss:.6f} {math.exp(trainer.my_epoch_loss):.4f} {trainer.my_lr:.8f} {datetime.datetime.now()} {trainer.current_epoch}\n"
)
trainer.my_log.flush()
trainer.my_loss_sum = 0
@@ -178,22 +197,22 @@ def generate_init_weight(model, init_weight_name):
mm[k] = src.reshape(mm[k].shape)
except:
tmp = mm[k].squeeze().clone()
print(k, src.shape, '-->', mm[k].shape)
print(k, src.shape, "-->", mm[k].shape)
ss = src.shape[0]
dd = tmp.shape[0]
for i in range(dd):
pos = i / dd * ss
if pos >= ss - 1:
tmp[i] = src[ss-1]
tmp[i] = src[ss - 1]
else:
p0 = int(math.floor(pos))
ii = pos - p0
tmp[i] = src[p0] * (1-ii) + src[p0+1] * (ii)
tmp[i] = src[p0] * (1 - ii) + src[p0 + 1] * (ii)
mm[k] = tmp.reshape(mm[k].shape)
sss = src.squeeze().float().cpu().numpy()
print(sss[:10], '...', sss[-10:])
print(sss[:10], "...", sss[-10:])
mmm = mm[k].squeeze().float().cpu().numpy()
print(mmm[:10], '...', mmm[-10:])
print(mmm[:10], "...", mmm[-10:])
print(f"Save to {init_weight_name}...")
torch.save(mm, init_weight_name)

35
finetune/lora/src/utils.py → finetune/lora/v4/src/utils.py vendored
View File

@@ -6,6 +6,7 @@ from torch.nn import functional as F
time_slot = {}
time_ref = time.time_ns()
def record_time(name):
if name not in time_slot:
time_slot[name] = 1e20
@@ -13,20 +14,23 @@ def record_time(name):
if tt < time_slot[name]:
time_slot[name] = tt
class TOKENIZER():
def __init__(self, WORD_NAME, UNKNOWN_CHAR='\ue083'):
if 'list' in str(type(WORD_NAME)):
class TOKENIZER:
def __init__(self, WORD_NAME, UNKNOWN_CHAR="\ue083"):
if "list" in str(type(WORD_NAME)):
self.charMode = False
if WORD_NAME[0] == WORD_NAME[1]:
from transformers import PreTrainedTokenizerFast
self.tokenizer = PreTrainedTokenizerFast(tokenizer_file=WORD_NAME[0])
else:
from transformers import GPT2TokenizerFast
self.tokenizer = GPT2TokenizerFast(WORD_NAME[0], WORD_NAME[1])
self.vocab_size = len(self.tokenizer)
else:
self.charMode = True
with open(WORD_NAME + '.json', "r", encoding="utf-16") as result_file:
with open(WORD_NAME + ".json", "r", encoding="utf-16") as result_file:
self.word_table = json.load(result_file)
self.vocab_size = len(self.word_table)
@@ -37,23 +41,25 @@ class TOKENIZER():
self.UNKNOWN_CHAR = self.stoi[UNKNOWN_CHAR]
def refine_context(self, context):
context = context.strip().split('\n')
context = context.strip().split("\n")
for c in range(len(context)):
context[c] = context[c].strip().strip('\u3000').strip('\r')
context = list(filter(lambda c: c != '', context))
context = '\n' + ('\n'.join(context)).strip()
if context == '':
context = '\n'
context[c] = context[c].strip().strip("\u3000").strip("\r")
context = list(filter(lambda c: c != "", context))
context = "\n" + ("\n".join(context)).strip()
if context == "":
context = "\n"
return context
def sample_logits(self, out, x, ctx_len, temperature=1.0, top_p_usual=None, top_p_newline=None):
def sample_logits(
self, out, x, ctx_len, temperature=1.0, top_p_usual=None, top_p_newline=None
):
# out[self.UNKNOWN_CHAR] = -float('Inf')
lastChar = int(x[-1])
probs = F.softmax(out, dim=-1)
if self.charMode:
if self.itos[lastChar] == '\n':
if self.itos[lastChar] == "\n":
top_p = top_p_newline
else:
top_p = top_p_usual
@@ -81,6 +87,7 @@ class TOKENIZER():
out = torch.multinomial(probs, num_samples=1)[0]
return out
def MaybeIsPrime(number):
if FermatPrimalityTest(number) and MillerRabinPrimalityTest(number):
return True
@@ -121,7 +128,9 @@ def MillerRabinPrimalityTest(number):
if (randomNumberWithPower != 1) and (randomNumberWithPower != number - 1):
iterationNumber = 1
while (iterationNumber <= timesTwoDividNumber - 1) and (randomNumberWithPower != number - 1):
while (iterationNumber <= timesTwoDividNumber - 1) and (
randomNumberWithPower != number - 1
):
randomNumberWithPower = pow(randomNumberWithPower, 2, number)
iterationNumber = iterationNumber + 1
if randomNumberWithPower != (number - 1):

14
finetune/lora/train.py → finetune/lora/v4/train.py vendored
View File

@@ -184,7 +184,7 @@ if __name__ == "__main__":
args.num_sanity_val_steps = 0
args.check_val_every_n_epoch = int(1e20)
args.log_every_n_steps = int(1e20)
args.max_epochs = args.epoch_count # continue forever
args.max_epochs = args.epoch_count # -1 continue forever
args.betas = (args.beta1, args.beta2)
args.real_bsz = int(args.num_nodes) * int(args.devices) * args.micro_bsz
os.environ["RWKV_T_MAX"] = str(args.ctx_len)
@@ -373,7 +373,7 @@ if __name__ == "__main__":
for param in module.parameters():
param.requires_grad = True
elif enable_time_finetune and any(
n.startswith("time") for n, _ in module.named_parameters()
n.startswith("time") for n, _ in module.named_parameters()
):
for pname, param in module.named_parameters():
if pname.startswith("time"):
@@ -381,7 +381,7 @@ if __name__ == "__main__":
param.requires_grad = True
if (
len(args.load_model) == 0 or args.my_pile_stage == 1
len(args.load_model) == 0 or args.my_pile_stage == 1
): # shall we build the initial weights?
init_weight_name = f"{args.proj_dir}/rwkv-init.pth"
generate_init_weight(model, init_weight_name) # save initial weights
@@ -423,8 +423,8 @@ if __name__ == "__main__":
)
if (
args.lr_init > 1e-4
or trainer.world_size * args.micro_bsz * trainer.accumulate_grad_batches < 8
args.lr_init > 1e-4
or trainer.world_size * args.micro_bsz * trainer.accumulate_grad_batches < 8
):
if "I_KNOW_WHAT_IM_DOING" in os.environ:
if trainer.global_rank == 0:
@@ -459,10 +459,10 @@ if __name__ == "__main__":
if "deepspeed" in args.strategy:
trainer.strategy.config["zero_optimization"]["allgather_bucket_size"] = (
args.ds_bucket_mb * 1000 * 1000
args.ds_bucket_mb * 1000 * 1000
)
trainer.strategy.config["zero_optimization"]["reduce_bucket_size"] = (
args.ds_bucket_mb * 1000 * 1000
args.ds_bucket_mb * 1000 * 1000
)
# must set shuffle=False, persistent_workers=False (because worker is in another thread)

202
finetune/lora/v5/cuda/wkv5_cuda.cu vendored Normal file
View File

@@ -0,0 +1,202 @@
#include <stdio.h>
#include <assert.h>
#include "ATen/ATen.h"
typedef at::BFloat16 bf16;
template <typename F>
__global__ void kernel_forward(const int B, const int T, const int C, const int H,
const F *__restrict__ const _r, const F *__restrict__ const _k, const F *__restrict__ const _v, const float *__restrict__ _w, const F *__restrict__ _u,
F *__restrict__ const _y)
{
const int b = blockIdx.x / H;
const int h = blockIdx.x % H;
const int i = threadIdx.x;
_w += h*_N_;
_u += h*_N_;
__shared__ float r[_N_], k[_N_], u[_N_], w[_N_];
float state[_N_] = {0};
__syncthreads();
w[i] = _w[i];
u[i] = float(_u[i]);
__syncthreads();
for (int t = b*T*C + h*_N_ + i; t < (b+1)*T*C + h*_N_ + i; t += C)
{
__syncthreads();
r[i] = float(_r[t]);
k[i] = float(_k[t]);
__syncthreads();
const float v = float(_v[t]);
float y = 0;
#pragma unroll
for (int j = 0; j < _N_; j+=4)
{
const float4& r_ = (float4&)(r[j]);
const float4& k_ = (float4&)(k[j]);
const float4& w_ = (float4&)(w[j]);
const float4& u_ = (float4&)(u[j]);
float4& s = (float4&)(state[j]);
float4 x;
x.x = k_.x * v;
x.y = k_.y * v;
x.z = k_.z * v;
x.w = k_.w * v;
y += r_.x * (u_.x * x.x + s.x);
y += r_.y * (u_.y * x.y + s.y);
y += r_.z * (u_.z * x.z + s.z);
y += r_.w * (u_.w * x.w + s.w);
s.x = s.x * w_.x + x.x;
s.y = s.y * w_.y + x.y;
s.z = s.z * w_.z + x.z;
s.w = s.w * w_.w + x.w;
}
_y[t] = F(y);
}
}
template <typename F>
__global__ void kernel_backward(const int B, const int T, const int C, const int H,
const F *__restrict__ const _r, const F *__restrict__ const _k, const F *__restrict__ const _v, const float *__restrict__ _w, const float *__restrict__ __w, const F *__restrict__ _u, const F *__restrict__ const _gy,
F *__restrict__ const _gr, F *__restrict__ const _gk, F *__restrict__ const _gv, F *__restrict__ const _gw, F *__restrict__ const _gu)
{
const int b = blockIdx.x / H;
const int h = blockIdx.x % H;
const int i = threadIdx.x;
_w += h*_N_;
_u += h*_N_;
__w += h*_N_;
__shared__ float w_[_N_], u_[_N_];
__shared__ float r[_N_], k[_N_], v[_N_], gy[_N_];
__syncthreads();
w_[i] = _w[i];
u_[i] = float(_u[i]);
__syncthreads();
const float w = w_[i];
const float ww = __w[i];
const float u = u_[i];
float state[_N_] = {0}, saaaa[_N_] = {0}, sbbbb[_N_] = {0}, scccc[_N_] = {0}, sdddd[_N_] = {0};
float gw = 0, gu = 0;
const int t000 = b*T*C + h*_N_ + i;
const int t111 = (b+1)*T*C + h*_N_ + i;
const int t222 = t111 - 2*C;
for (int t = t000; t < t111; t += C)
{
__syncthreads();
v[i] = float(_v[t]);
gy[i] = float(_gy[t]);
__syncthreads();
const float k = float(_k[t]);
float gr = 0, gu_ = 0;
#pragma unroll
for (int j = 0; j < _N_; j++)
{
float& s = state[j];
float x = k * v[j];
gr += (u * x + s) * gy[j];
gu_ += x * gy[j];
s = s * w + x;
}
_gr[t] = F(gr);
gu += float(_r[t]) * gu_;
}
_gu[b*C + h*_N_ + i] = F(gu);
for (int t = t000; t < t222; t += C)
{
__syncthreads();
v[i] = float(_v[t]);
gy[i] = float(_gy[t + 2*C]);
__syncthreads();
const float k = float(_k[t]);
float gw_ = 0;
#pragma unroll
for (int j = 0; j < _N_; j++)
{
float& s = saaaa[j];
float& s2 = sbbbb[j];
float x = k * v[j];
float tmp = w * (x + s);
s = tmp;
s2 = tmp + w * s2;
gw_ += s2 * gy[j];
}
gw += float(_r[t + 2*C]) * gw_;
}
_gw[b*C + h*_N_ + i] = F(ww * gw);
for (int t = t111 - C; t >= t000; t -= C)
{
__syncthreads();
v[i] = float(_v[t]);
gy[i] = float(_gy[t]);
__syncthreads();
const float rr = float(_r[t]);
float gk = 0;
#pragma unroll
for (int j = 0; j < _N_; j++)
{
float& s = scccc[j];
float x = rr * gy[j];
gk += (u * x + s) * v[j];
s = x + s * w;
}
_gk[t] = F(gk);
}
for (int t = t111 - C; t >= t000; t -= C)
{
__syncthreads();
r[i] = float(_r[t]);
k[i] = float(_k[t]);
__syncthreads();
const float gyy = float(_gy[t]);
float gv = 0;
#pragma unroll
for (int j = 0; j < _N_; j++)
{
float& s = sdddd[j];
float x = gyy * r[j];
gv += (u_[j] * x + s) * k[j];
s = x + s * w_[j];
}
_gv[t] = F(gv);
}
}
void cuda_forward(int B, int T, int C, int H, bf16 *r, bf16 *k, bf16 *v, float *w, bf16 *u, bf16 *y)
{
assert(H*_N_ == C);
assert(_N_%4 == 0);
kernel_forward<<<dim3(B * H), dim3(_N_)>>>(B, T, C, H, r, k, v, w, u, y);
}
void cuda_backward(int B, int T, int C, int H, bf16 *r, bf16 *k, bf16 *v, float *w, float *ww, bf16 *u, bf16 *gy, bf16 *gr, bf16 *gk, bf16 *gv, bf16 *gw, bf16 *gu)
{
assert(H*_N_ == C);
assert(_N_%4 == 0);
kernel_backward<<<dim3(B * H), dim3(_N_)>>>(B, T, C, H, r, k, v, w, ww, u, gy, gr, gk, gv, gw, gu);
}

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#include <torch/extension.h>
#include "ATen/ATen.h"
typedef at::BFloat16 bf16;
void cuda_forward(int B, int T, int C, int H, bf16 *r, bf16 *k, bf16 *v, float *w, bf16 *u, bf16 *y);
void cuda_backward(int B, int T, int C, int H, bf16 *r, bf16 *k, bf16 *v, float *w, float *ww, bf16 *u, bf16 *gy, bf16 *gr, bf16 *gk, bf16 *gv, bf16 *gw, bf16 *gu);
void forward(int64_t B, int64_t T, int64_t C, int64_t H, torch::Tensor &r, torch::Tensor &k, torch::Tensor &v, torch::Tensor &w, torch::Tensor &u, torch::Tensor &y) {
cuda_forward(B, T, C, H, r.data_ptr<bf16>(), k.data_ptr<bf16>(), v.data_ptr<bf16>(), w.data_ptr<float>(), u.data_ptr<bf16>(), y.data_ptr<bf16>());
}
void backward(int64_t B, int64_t T, int64_t C, int64_t H, torch::Tensor &r, torch::Tensor &k, torch::Tensor &v, torch::Tensor &w, torch::Tensor &ww, torch::Tensor &u, torch::Tensor &gy, torch::Tensor &gr, torch::Tensor &gk, torch::Tensor &gv, torch::Tensor &gw, torch::Tensor &gu) {
cuda_backward(B, T, C, H, r.data_ptr<bf16>(), k.data_ptr<bf16>(), v.data_ptr<bf16>(), w.data_ptr<float>(), ww.data_ptr<float>(), u.data_ptr<bf16>(), gy.data_ptr<bf16>(), gr.data_ptr<bf16>(), gk.data_ptr<bf16>(), gv.data_ptr<bf16>(), gw.data_ptr<bf16>(), gu.data_ptr<bf16>());
}
PYBIND11_MODULE(TORCH_EXTENSION_NAME, m) {
m.def("forward", &forward, "wkv5 forward");
m.def("backward", &backward, "wkv5 backward");
}
TORCH_LIBRARY(wkv5, m) {
m.def("forward", forward);
m.def("backward", backward);
}

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finetune/lora/v5/src/__init__.py vendored Normal file
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303
finetune/lora/v5/src/binidx.py vendored Normal file
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from lib2to3.pgen2 import token
import os
import torch
import numpy as np
import shutil
import struct
from functools import lru_cache
from itertools import accumulate
def print_rank_0(*message):
pass
# """If distributed is initialized print only on rank 0."""
# if torch.distributed.is_initialized():
# if torch.distributed.get_rank() == 0:
# print(*message, flush=True)
# else:
# print(*message, flush=True)
def _warmup_mmap_file(path):
pass
# with open(path, "rb") as stream:
# while stream.read(100 * 1024 * 1024):
# pass
dtypes = {
1: np.uint8,
2: np.int8,
3: np.int16,
4: np.int32,
5: np.int64,
6: float,
7: np.double,
8: np.uint16,
}
def code(dtype):
for k in dtypes.keys():
if dtypes[k] == dtype:
return k
raise ValueError(dtype)
def index_file_path(prefix_path):
return prefix_path + ".idx"
def data_file_path(prefix_path):
return prefix_path + ".bin"
class MMapIndexedDataset(torch.utils.data.Dataset):
class Index(object):
_HDR_MAGIC = b"MMIDIDX\x00\x00"
@classmethod
def writer(cls, path, dtype):
class _Writer(object):
def __enter__(self):
self._file = open(path, "wb")
# Write Magic string so we can check the file format then opening it again.
self._file.write(cls._HDR_MAGIC)
# Write version number
# Little endian unsigned 64 Bit integer
self._file.write(struct.pack("<Q", 1))
# Little endian unsigned 8 Bit integer
self._file.write(struct.pack("<B", code(dtype)))
return self
@staticmethod
def _get_pointers(sizes):
dtype_size = dtype().itemsize
address = 0
pointers = []
for size in sizes:
pointers.append(address)
address += size * dtype_size
return pointers
def write(self, sizes, doc_idx):
pointers = self._get_pointers(sizes)
# Little endian unsigned 64 Bit integer
self._file.write(struct.pack("<Q", len(sizes)))
# Little endian unsigned 64 Bit integer
self._file.write(struct.pack("<Q", len(doc_idx)))
sizes = np.array(sizes, dtype=np.int32)
self._file.write(sizes.tobytes(order="C"))
del sizes
pointers = np.array(pointers, dtype=np.int64)
self._file.write(pointers.tobytes(order="C"))
del pointers
doc_idx = np.array(doc_idx, dtype=np.int64)
self._file.write(doc_idx.tobytes(order="C"))
def __exit__(self, exc_type, exc_val, exc_tb):
self._file.close()
return _Writer()
def __init__(self, path, skip_warmup=False):
with open(path, "rb") as stream:
magic_test = stream.read(9)
assert self._HDR_MAGIC == magic_test, (
"Index file doesn't match expected format. "
"Make sure that --dataset-impl is configured properly."
)
# Little endian unsigned 64 Bit integer
version = struct.unpack("<Q", stream.read(8))
assert (1,) == version
# Little endian unsigned 8 Bit integer
(dtype_code,) = struct.unpack("<B", stream.read(1))
self._dtype = dtypes[dtype_code]
self._dtype_size = self._dtype().itemsize
self._len = struct.unpack("<Q", stream.read(8))[0]
self._doc_count = struct.unpack("<Q", stream.read(8))[0]
offset = stream.tell()
if not skip_warmup:
print_rank_0(" warming up index mmap file...")
_warmup_mmap_file(path)
self._bin_buffer_mmap = np.memmap(path, mode="r", order="C")
self._bin_buffer = memoryview(self._bin_buffer_mmap)
print_rank_0(" reading sizes...")
self._sizes = np.frombuffer(
self._bin_buffer, dtype=np.int32, count=self._len, offset=offset
)
print_rank_0(" reading pointers...")
self._pointers = np.frombuffer(
self._bin_buffer,
dtype=np.int64,
count=self._len,
offset=offset + self._sizes.nbytes,
)
print_rank_0(" reading document index...")
self._doc_idx = np.frombuffer(
self._bin_buffer,
dtype=np.int64,
count=self._doc_count,
offset=offset + self._sizes.nbytes + self._pointers.nbytes,
)
def __del__(self):
self._bin_buffer_mmap._mmap.close()
del self._bin_buffer_mmap
@property
def dtype(self):
return self._dtype
@property
def sizes(self):
return self._sizes
@property
def doc_idx(self):
return self._doc_idx
@lru_cache(maxsize=8)
def __getitem__(self, i):
return self._pointers[i], self._sizes[i]
def __len__(self):
return self._len
def __init__(self, path, skip_warmup=False):
super().__init__()
self._path = None
self._index = None
self._bin_buffer = None
self._do_init(path, skip_warmup)
def __getstate__(self):
return self._path
def __setstate__(self, state):
self._do_init(state)
def _do_init(self, path, skip_warmup):
self._path = path
self._index = self.Index(index_file_path(self._path), skip_warmup)
if not skip_warmup:
print_rank_0(" warming up data mmap file...")
_warmup_mmap_file(data_file_path(self._path))
print_rank_0(" creating numpy buffer of mmap...")
self._bin_buffer_mmap = np.memmap(
data_file_path(self._path), mode="r", order="C"
)
print_rank_0(" creating memory view of numpy buffer...")
self._bin_buffer = memoryview(self._bin_buffer_mmap)
def __del__(self):
self._bin_buffer_mmap._mmap.close()
del self._bin_buffer_mmap
del self._index
def __len__(self):
return len(self._index)
# @lru_cache(maxsize=8)
def __getitem__(self, idx):
if isinstance(idx, int):
ptr, size = self._index[idx]
np_array = np.frombuffer(
self._bin_buffer, dtype=self._index.dtype, count=size, offset=ptr
)
return np_array
elif isinstance(idx, slice):
start, stop, step = idx.indices(len(self))
if step != 1:
raise ValueError("Slices into indexed_dataset must be contiguous")
ptr = self._index._pointers[start]
sizes = self._index._sizes[idx]
offsets = list(accumulate(sizes))
total_size = sum(sizes)
np_array = np.frombuffer(
self._bin_buffer, dtype=self._index.dtype, count=total_size, offset=ptr
)
sents = np.split(np_array, offsets[:-1])
return sents
def get(self, idx, offset=0, length=None):
"""Retrieves a single item from the dataset with the option to only
return a portion of the item.
get(idx) is the same as [idx] but get() does not support slicing.
"""
ptr, size = self._index[idx]
if length is None:
length = size - offset
ptr += offset * np.dtype(self._index.dtype).itemsize
np_array = np.frombuffer(
self._bin_buffer, dtype=self._index.dtype, count=length, offset=ptr
)
return np_array
def pad(self, idx, length=None):
ptr, size = self._index[idx]
try:
np_array = np.frombuffer(
self._bin_buffer, dtype=self._index.dtype, count=length, offset=ptr
)
except:
np_array = np.frombuffer(
self._bin_buffer, dtype=self._index.dtype, count=size, offset=ptr
)
ptr0, _ = self._index[0]
np_array0 = np.frombuffer(
self._bin_buffer,
dtype=self._index.dtype,
count=length - size,
offset=ptr0,
)
np_array = np.append(np_array, np_array0)
return np_array
def only(self, idx):
ptr, size = self._index[idx]
np_array = np.frombuffer(
self._bin_buffer, dtype=self._index.dtype, count=size, offset=ptr
)
return np_array
@property
def sizes(self):
return self._index.sizes
@property
def doc_idx(self):
return self._index.doc_idx
def get_doc_idx(self):
return self._index._doc_idx
def set_doc_idx(self, doc_idx_):
self._index._doc_idx = doc_idx_
@property
def supports_prefetch(self):
return False
@staticmethod
def exists(path):
return os.path.exists(index_file_path(path)) and os.path.exists(
data_file_path(path)
)

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########################################################################################################
# The RWKV Language Model - https://github.com/BlinkDL/RWKV-LM
########################################################################################################
import json, math, random, os, sys
import numpy as np
import torch
from torch.utils.data import Dataset
from pytorch_lightning.utilities import rank_zero_info
from .binidx import MMapIndexedDataset
from .utils import MaybeIsPrime
class MyDataset(Dataset):
def __init__(self, args):
self.args = args
if args.data_type == "binidx":
self.vocab_size = args.vocab_size
rank_zero_info(
f"Current vocab size = {self.vocab_size} (make sure it's correct)"
)
if args.my_pile_version == 1:
self.data = MMapIndexedDataset(args.data_file)
self.data_size = (
len(self.data._bin_buffer) // self.data._index._dtype_size
)
rank_zero_info(f"Data has {self.data_size} tokens.")
elif args.my_pile_version == 2:
data_list = (
open(args.data_file, "r", encoding="utf-8")
.read()
.strip()
.split("\n")
)
data_list = [i.strip().split(" ") for i in data_list]
self.data = []
self.data_size = int(data_list[-1][-1])
rank_zero_info(f"Data has {self.data_size} chunks.")
for d in data_list:
data = MMapIndexedDataset(d[0])
data_size = len(data._bin_buffer) // data._index._dtype_size
assert (data_size - args.ctx_len) == int(d[1])
self.data += [[int(d[-1]), int(d[1]), data]]
# rank_zero_info(self.data)
if args.my_qa_mask > 0:
# self.data_pile = MMapIndexedDataset('/fsx/pile/pile_20B_tokenizer_text_document')
self.data_pile = MMapIndexedDataset(
"/fsx/pile_deduped/pile_0.87_deduped_text_document"
)
self.data_pile_size = (
len(self.data_pile._bin_buffer) // self.data._index._dtype_size
)
else:
self.data_pile = None
self.data_pile_size = 0
if args.my_pile_stage > 0:
# assert self.data_size == 332115325534 and self.vocab_size == 50277
self.samples_per_epoch = args.epoch_steps * args.real_bsz
assert self.samples_per_epoch == 40320
rank_zero_info(
f"########## Pile 20b-tokenized stage {args.my_pile_stage} ##########"
)
dataset_slot = self.data_size // args.ctx_len
if args.my_pile_stage != 4:
assert MaybeIsPrime(args.magic_prime)
assert args.magic_prime % 3 == 2
assert (
args.magic_prime / dataset_slot > 0.99
and args.magic_prime / dataset_slot <= 1
)
elif args.data_type == "numpy":
self.data = np.load(args.data_file).astype("int")
self.vocab_size = args.vocab_size
rank_zero_info(
f"Current vocab size = {self.vocab_size} (make sure it's correct)"
)
self.data_size = len(self.data)
rank_zero_info(f"Data has {self.data_size} tokens.")
elif args.data_type == "uint16":
self.data = (
np.fromfile(args.data_file, dtype=np.uint16)
.astype("int32")
.reshape(-1, args.my_sample_len)
)
self.vocab_size = args.vocab_size
rank_zero_info(
f"Current vocab size = {self.vocab_size} (make sure it's correct)"
)
self.data_size = self.data.shape[0]
rank_zero_info(f"Data has {self.data_size} samples.")
else:
if args.data_type == "dummy":
rank_zero_info("Building dummy data...")
self.data = ""
for i in range(100000):
aa = (i) % 10000
bb = (i * i) % 10000
cc = aa + bb
self.data += f".{aa}+{bb}={cc}."
else:
self.data = open(args.data_file, "r", encoding=args.data_type).read()
rank_zero_info("Building token list...")
unique = sorted(list(set(self.data)))
self.vocab_size = len(unique)
# rank_zero_info()
# for u in unique:
# print(u, end=' ')
# rank_zero_info('\n\n')
xx = 0
xxObj = {}
for u in unique:
xxObj[xx] = u
xx += 1
with open(
f"{args.proj_dir}/vocab.json", "w", encoding="utf-8"
) as vocab_file:
vocab_file.write(json.dumps(xxObj, ensure_ascii=False))
self.data_size = len(self.data)
rank_zero_info(
f"Data has {self.data_size} tokens, {self.vocab_size} vocab size."
)
self.stoi = {ch: i for i, ch in enumerate(unique)}
self.itos = {i: ch for i, ch in enumerate(unique)}
def __len__(self):
return self.args.epoch_steps * self.args.micro_bsz
def __getitem__(self, idx):
args = self.args
rank = self.global_rank
epoch = self.real_epoch
world_size = self.world_size
# print(f"epoch {epoch} idx {idx} rank {rank}/{world_size}")
if args.data_type == "uint16":
i = np.random.randint(0, self.data_size - 1)
dix = self.data[i]
x = torch.tensor(dix[:-1], dtype=torch.long)
y = torch.tensor(dix[1:], dtype=torch.long)
else:
ctx_len = args.ctx_len
req_len = ctx_len + 1
magic_prime = args.magic_prime
data = self.data
if args.my_pile_stage > 0:
ii = 1 + epoch * self.samples_per_epoch + (idx * world_size) + rank
if args.my_qa_mask > 0:
ii_orig = ii
if ii % 2 == 0:
ii = -1
data = self.data_pile
else:
ii = ii // 2
if data == self.data_pile:
i = np.random.randint(0, self.data_pile_size - req_len)
else:
if args.my_pile_stage == 4 or ii < args.my_random_steps:
# cheat: pick a random spot in dataset
if args.my_pile_version == 1:
i = np.random.randint(0, self.data_size - req_len)
else:
i = np.random.randint(0, self.data_size)
else:
ii = ii - args.my_random_steps
factor = (math.sqrt(5) - 1) / 2
factor = int(magic_prime * factor)
i = ((factor * ii * ii * ii) % magic_prime) * ctx_len
i = i + args.my_pile_shift
# print(f"epoch {epoch} idx {idx} rank {rank}/{world_size} ii {ii} pos {round(i / self.data_size, 3)}")
else:
# cheat: pick a random spot in dataset
i = np.random.randint(0, self.data_size - req_len)
if args.data_type == "binidx":
if args.my_pile_version == 1:
dix = data.get(idx=0, offset=i, length=req_len).astype(int)
else:
# self.data : cutoff, chunk_count, data
for j in range(len(data)):
if i < data[j][0]:
ii = i
i = (i - (data[j - 1][0] if j > 0 else 0)) % data[j][1]
dix = (
data[j][2]
.get(idx=0, offset=i, length=req_len)
.astype(int)
)
# print(ii, j, i)
break
elif args.data_type == "numpy":
dix = data[i : i + req_len]
else:
dix = [self.stoi[s] for s in data[i : i + req_len]]
if args.my_qa_mask == 1:
if data == self.data_pile:
z = [1] * ctx_len
else:
z = [0] * ctx_len
z_sum = 0
isGood = False
for i in range(3, ctx_len):
if (
dix[i] == 27
and dix[i - 1] == 34
and dix[i - 2] == 187
and dix[i - 3] == 187
):
isGood = True
if dix[i] == 0:
isGood = False
if isGood:
z[i] = 1
z_sum += 1
if z_sum == 0:
z = [1] * ctx_len
i = np.random.randint(0, self.data_pile_size - req_len)
dix = self.data_pile.get(
idx=0, offset=i, length=req_len
).astype(int)
z = torch.tensor(z, dtype=torch.bfloat16)
x = torch.tensor(dix[:-1], dtype=torch.long)
y = torch.tensor(dix[1:], dtype=torch.long)
# if ii_orig < 50:
# # if rank == 1:
# print('rank', rank, 'i', ii_orig, ii, i, 'x', x[:5], '...', x[-5:])
# else:
# exit(0)
if args.my_qa_mask == 1:
return x, y, z
return x, y

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########################################################################################################
# The RWKV Language Model - https://github.com/BlinkDL/RWKV-LM
########################################################################################################
import functools
import os, math, gc, importlib
import torch
# torch._C._jit_set_profiling_executor(True)
# torch._C._jit_set_profiling_mode(True)
import torch.nn as nn
from torch.utils.checkpoint import checkpoint as torch_checkpoint
from torch.nn import functional as F
import pytorch_lightning as pl
from pytorch_lightning.utilities import rank_zero_info, rank_zero_only
from pytorch_lightning.strategies import DeepSpeedStrategy
if importlib.util.find_spec("deepspeed"):
import deepspeed
from deepspeed.ops.adam import DeepSpeedCPUAdam, FusedAdam
# from deepspeed.runtime.fp16.onebit.zoadam import ZeroOneAdam
# lora-config
LORA_CONFIG = {
"r": 0,
"alpha": 0,
"dropout": 0,
"parts": {"att", "ln", "time"},
}
try:
print("RWKV_MY_TESTING", os.environ["RWKV_MY_TESTING"])
except:
os.environ["RWKV_MY_TESTING"] = ""
def __nop(ob):
return ob
MyModule = nn.Module
MyFunction = __nop
if os.environ["RWKV_JIT_ON"] == "1":
MyModule = torch.jit.ScriptModule
MyFunction = torch.jit.script_method
########################################################################################################
# CUDA Kernel
########################################################################################################
from torch.utils.cpp_extension import load
HEAD_SIZE = int(os.environ["RWKV_HEAD_SIZE_A"])
wkv5_cuda = load(
name="wkv5",
sources=[
"finetune/lora/v5/cuda/wkv5_op.cpp",
f"finetune/lora/v5/cuda/wkv5_cuda.cu",
],
verbose=True,
extra_cuda_cflags=[
"-res-usage",
"--use_fast_math",
"-O3",
"-Xptxas -O3",
"--extra-device-vectorization",
f"-D_N_={HEAD_SIZE}",
],
)
class WKV_5(torch.autograd.Function):
@staticmethod
def forward(ctx, B, T, C, H, r, k, v, w, u):
with torch.no_grad():
assert r.dtype == torch.bfloat16
assert k.dtype == torch.bfloat16
assert v.dtype == torch.bfloat16
assert w.dtype == torch.bfloat16
assert u.dtype == torch.bfloat16
assert HEAD_SIZE == C // H
ctx.B = B
ctx.T = T
ctx.C = C
ctx.H = H
assert r.is_contiguous()
assert k.is_contiguous()
assert v.is_contiguous()
assert w.is_contiguous()
assert u.is_contiguous()
ew = (-torch.exp(w.float())).contiguous()
eew = (torch.exp(ew)).contiguous()
ctx.save_for_backward(r, k, v, eew, ew, u)
y = torch.empty(
(B, T, C),
device=r.device,
dtype=torch.bfloat16,
memory_format=torch.contiguous_format,
) # .uniform_(-1, 1)
wkv5_cuda.forward(B, T, C, H, r, k, v, eew, u, y)
return y
@staticmethod
def backward(ctx, gy):
with torch.no_grad():
assert gy.dtype == torch.bfloat16
B = ctx.B
T = ctx.T
C = ctx.C
H = ctx.H
assert gy.is_contiguous()
r, k, v, eew, ew, u = ctx.saved_tensors
gr = torch.empty(
(B, T, C),
device=gy.device,
requires_grad=False,
dtype=torch.bfloat16,
memory_format=torch.contiguous_format,
) # .uniform_(-1, 1)
gk = torch.empty(
(B, T, C),
device=gy.device,
requires_grad=False,
dtype=torch.bfloat16,
memory_format=torch.contiguous_format,
) # .uniform_(-1, 1)
gv = torch.empty(
(B, T, C),
device=gy.device,
requires_grad=False,
dtype=torch.bfloat16,
memory_format=torch.contiguous_format,
) # .uniform_(-1, 1)
gw = torch.empty(
(B, C),
device=gy.device,
requires_grad=False,
dtype=torch.bfloat16,
memory_format=torch.contiguous_format,
) # .uniform_(-1, 1)
gu = torch.empty(
(B, C),
device=gy.device,
requires_grad=False,
dtype=torch.bfloat16,
memory_format=torch.contiguous_format,
) # .uniform_(-1, 1)
wkv5_cuda.backward(B, T, C, H, r, k, v, eew, ew, u, gy, gr, gk, gv, gw, gu)
gw = torch.sum(gw, 0).view(H, C // H)
gu = torch.sum(gu, 0).view(H, C // H)
return (None, None, None, None, gr, gk, gv, gw, gu)
def RUN_CUDA_RWKV5(B, T, C, H, r, k, v, w, u):
return WKV_5.apply(B, T, C, H, r, k, v, w, u)
#################################################################
class LoraLinear(nn.Module):
def __init__(self, in_features: int, out_features: int, bias: bool):
super().__init__()
self.weight = nn.Parameter(torch.empty((out_features, in_features)))
assert bias == False, "Biased LoraLinear not supported"
r, alpha, dropout = (
LORA_CONFIG["r"],
LORA_CONFIG["alpha"],
LORA_CONFIG["dropout"],
)
self.lora_A = nn.Parameter(torch.empty(r, in_features))
self.lora_B = nn.Parameter(torch.empty(out_features, r))
self.lora_dropout = nn.Dropout(dropout)
self.scaling = alpha / r
nn.init.kaiming_uniform_(self.weight, a=math.sqrt(5))
nn.init.kaiming_uniform_(self.lora_A, a=math.sqrt(5))
nn.init.zeros_(self.lora_B)
def forward(self, x):
return F.linear(x, self.weight) + self.scaling * F.linear(
F.linear(self.lora_dropout(x), self.lora_A), self.lora_B
)
@functools.wraps(LoraLinear)
def make_linear_att(*args, **kwargs):
if "att" in LORA_CONFIG["parts"] and LORA_CONFIG["r"] > 0:
return LoraLinear(*args, **kwargs)
else:
return nn.Linear(*args, **kwargs)
@functools.wraps(LoraLinear)
def make_linear_ffn(*args, **kwargs):
if "ffn" in LORA_CONFIG["parts"] and LORA_CONFIG["r"] > 0:
return LoraLinear(*args, **kwargs)
else:
return nn.Linear(*args, **kwargs)
########################################################################################################
class RWKV_TimeMix_RWKV5(MyModule):
def __init__(self, args, layer_id):
super().__init__()
self.args = args
self.layer_id = layer_id
self.head_size = args.head_size_a
assert HEAD_SIZE == self.head_size # change HEAD_SIZE to match args.head_size_a
self.n_head = args.dim_att // self.head_size
assert args.dim_att % self.n_head == 0
self.head_size_divisor = args.head_size_divisor
with torch.no_grad():
ratio_0_to_1 = layer_id / (args.n_layer - 1) # 0 to 1
ratio_1_to_almost0 = 1.0 - (layer_id / args.n_layer) # 1 to ~0
ddd = torch.ones(1, 1, args.n_embd)
for i in range(args.n_embd):
ddd[0, 0, i] = i / args.n_embd
# fancy time_mix
self.time_mix_k = nn.Parameter(torch.pow(ddd, ratio_1_to_almost0))
self.time_mix_v = nn.Parameter(
torch.pow(ddd, ratio_1_to_almost0) + 0.3 * ratio_0_to_1
)
self.time_mix_r = nn.Parameter(torch.pow(ddd, 0.5 * ratio_1_to_almost0))
self.time_mix_g = nn.Parameter(torch.pow(ddd, 0.5 * ratio_1_to_almost0))
# fancy time_decay
decay_speed = torch.ones(args.dim_att)
for n in range(args.dim_att):
decay_speed[n] = -6 + 5 * (n / (args.dim_att - 1)) ** (
0.7 + 1.3 * ratio_0_to_1
)
self.time_decay = nn.Parameter(
decay_speed.reshape(self.n_head, self.head_size)
)
# print(layer_id, self.time_decay.flatten()[:3].cpu().numpy(), '...', self.time_decay.flatten()[-3:].cpu().numpy())
tmp = torch.zeros(args.dim_att)
for n in range(args.dim_att):
zigzag = ((n + 1) % 3 - 1) * 0.1
tmp[n] = ratio_0_to_1 * (1 - (n / (args.dim_att - 1))) + zigzag
self.time_faaaa = nn.Parameter(tmp.reshape(self.n_head, self.head_size))
self.time_shift = nn.ZeroPad2d((0, 0, 1, -1))
self.receptance = make_linear_att(args.n_embd, args.dim_att, bias=False)
self.key = make_linear_att(args.n_embd, args.dim_att, bias=False)
self.value = make_linear_att(args.n_embd, args.dim_att, bias=False)
self.output = nn.Linear(args.dim_att, args.n_embd, bias=False)
self.gate = make_linear_att(args.n_embd, args.dim_att, bias=False)
self.ln_x = nn.GroupNorm(self.n_head, args.dim_att)
@MyFunction
def jit_func(self, x):
B, T, C = x.size()
xx = self.time_shift(
x
) # Mix x with the previous timestep to produce xk, xv, xr
xk = x * self.time_mix_k + xx * (1 - self.time_mix_k)
xv = x * self.time_mix_v + xx * (1 - self.time_mix_v)
xr = x * self.time_mix_r + xx * (1 - self.time_mix_r)
xg = x * self.time_mix_g + xx * (1 - self.time_mix_g)
r = self.receptance(xr)
k = self.key(xk)
v = self.value(xv)
g = F.silu(self.gate(xg))
return r, k, v, g
@MyFunction
def jit_func_2(self, x, g):
B, T, C = x.size()
x = x.view(B * T, C)
x = self.ln_x(x / self.head_size_divisor).view(B, T, C)
x = self.output(x * g)
return x
def forward(self, x):
B, T, C = x.size()
H = self.n_head
r, k, v, g = self.jit_func(x)
x = RUN_CUDA_RWKV5(B, T, C, H, r, k, v, w=self.time_decay, u=self.time_faaaa)
return self.jit_func_2(x, g)
########################################################################################################
class RWKV_ChannelMix(MyModule):
def __init__(self, args, layer_id):
super().__init__()
self.args = args
self.layer_id = layer_id
self.time_shift = nn.ZeroPad2d((0, 0, 1, -1))
with torch.no_grad(): # fancy init of time_mix
ratio_1_to_almost0 = 1.0 - (layer_id / args.n_layer) # 1 to ~0
ddd = torch.ones(1, 1, args.n_embd)
for i in range(args.n_embd):
ddd[0, 0, i] = i / args.n_embd
self.time_mix_k = nn.Parameter(torch.pow(ddd, ratio_1_to_almost0))
self.time_mix_r = nn.Parameter(torch.pow(ddd, ratio_1_to_almost0))
self.key = make_linear_ffn(args.n_embd, args.dim_ffn, bias=False)
self.receptance = make_linear_ffn(args.n_embd, args.n_embd, bias=False)
self.value = make_linear_ffn(args.dim_ffn, args.n_embd, bias=False)
@MyFunction
def forward(self, x):
xx = self.time_shift(x)
xk = x * self.time_mix_k + xx * (1 - self.time_mix_k)
xr = x * self.time_mix_r + xx * (1 - self.time_mix_r)
k = self.key(xk)
k = torch.relu(k) ** 2
kv = self.value(k)
return torch.sigmoid(self.receptance(xr)) * kv
class MishGLU(MyModule):
def __init__(self, args, layer_id):
super().__init__()
self.args = args
self.layer_id = layer_id
self.time_shift = nn.ZeroPad2d((0, 0, 1, -1))
with torch.no_grad():
ratio_1_to_almost0 = 1.0 - (layer_id / args.n_layer)
x = torch.ones(1, 1, args.n_embd)
for i in range(args.n_embd):
x[0, 0, i] = i / args.n_embd
self.time_mix_k = nn.Parameter(torch.pow(x, ratio_1_to_almost0))
self.time_mix_r = nn.Parameter(torch.pow(x, ratio_1_to_almost0))
self.aa = nn.Linear(args.n_embd, args.dim_ffn, bias=False)
self.bb = nn.Linear(args.n_embd, args.dim_ffn, bias=False)
self.value = nn.Linear(args.dim_ffn, args.n_embd, bias=False)
@MyFunction
def forward(self, x):
xx = self.time_shift(x)
xa = x * self.time_mix_k + xx * (1 - self.time_mix_k)
xb = x * self.time_mix_r + xx * (1 - self.time_mix_r)
a = self.aa(xa)
b = self.bb(xb)
return self.value(a * F.mish(b))
########################################################################################################
# The RWKV Model with our blocks
########################################################################################################
class Block(nn.Module):
def __init__(self, args, layer_id):
super().__init__()
self.args = args
self.layer_id = layer_id
self.ln1 = nn.LayerNorm(args.n_embd)
self.ln2 = nn.LayerNorm(args.n_embd)
if self.layer_id == 0:
self.ln0 = nn.LayerNorm(args.n_embd)
if args.my_pos_emb > 0:
self.pos_emb_x = nn.Parameter(
torch.zeros((1, args.my_pos_emb, args.n_embd))
)
self.pos_emb_y = nn.Parameter(
torch.zeros((args.my_pos_emb, 1, args.n_embd))
)
if self.layer_id == 0 and self.args.pre_ffn > 0:
self.ffnPre = RWKV_ChannelMix(args, 0)
else:
self.att = RWKV_TimeMix_RWKV5(args, layer_id)
if "g" in os.environ["RWKV_MY_TESTING"]:
self.ffn = MishGLU(args, layer_id)
else:
self.ffn = RWKV_ChannelMix(args, layer_id)
if args.tiny_att_dim > 0 and self.layer_id == args.tiny_att_layer:
self.tiny_ln = nn.LayerNorm(args.n_embd)
self.tiny_q = nn.Linear(args.n_embd, args.tiny_att_dim, bias=False)
self.tiny_k = nn.Linear(args.n_embd, args.tiny_att_dim, bias=False)
self.tiny_v = nn.Linear(args.n_embd, args.n_embd, bias=False)
self.register_buffer(
"tiny_mask", torch.tril(torch.ones(args.ctx_len, args.ctx_len))
)
if args.dropout > 0:
self.drop0 = nn.Dropout(p=args.dropout)
self.drop1 = nn.Dropout(p=args.dropout)
def forward(self, x, x_emb=None):
args = self.args
B, T, C = x.size()
if self.layer_id == 0:
x = self.ln0(x)
if args.my_pos_emb > 0:
pos_emb = (self.pos_emb_x + self.pos_emb_y).reshape(T + 1, -1)[:-1, :]
x = x + pos_emb
if self.args.dropout == 0:
if self.layer_id == 0 and args.pre_ffn > 0:
x = x + self.ffnPre(self.ln1(x))
else:
x = x + self.att(self.ln1(x))
x = x + self.ffn(self.ln2(x))
else:
if self.layer_id == 0 and args.pre_ffn > 0:
x = self.drop0(x + self.ffnPre(self.ln1(x)))
else:
x = self.drop0(x + self.att(self.ln1(x)))
x = self.drop1(x + self.ffn(self.ln2(x)))
if args.tiny_att_dim > 0 and self.layer_id == args.tiny_att_layer:
xx = self.tiny_ln(x)
q = self.tiny_q(xx)[:, :T, :]
k = self.tiny_k(xx)[:, :T, :]
c = (q @ k.transpose(-2, -1)) * (args.tiny_att_dim ** (-0.5))
c = c.masked_fill(self.tiny_mask[:T, :T] == 0, 0)
x = x + c @ self.tiny_v(x_emb)
return x
class L2Wrap(torch.autograd.Function):
@staticmethod
def forward(ctx, loss, y):
ctx.save_for_backward(y)
return loss
@staticmethod
def backward(ctx, grad_output):
y = ctx.saved_tensors[0]
# to encourage the logits to be close to 0
factor = 1e-4 / (y.shape[0] * y.shape[1])
maxx, ids = torch.max(y, -1, keepdim=True)
gy = torch.zeros_like(y)
gy.scatter_(-1, ids, maxx * factor)
return (grad_output, gy)
class RWKV(pl.LightningModule):
def __init__(self, args):
super().__init__()
self.args = args
if not hasattr(args, "dim_att"):
args.dim_att = args.n_embd
if not hasattr(args, "dim_ffn"):
args.dim_ffn = args.n_embd * 4
if not hasattr(args, "tiny_att_layer"):
args.tiny_att_layer = -1
if not hasattr(args, "tiny_att_dim"):
args.tiny_att_dim = -1
assert args.n_embd % 32 == 0
assert args.dim_att % 32 == 0
assert args.dim_ffn % 32 == 0
self.emb = nn.Embedding(args.vocab_size, args.n_embd)
self.blocks = nn.ModuleList([Block(args, i) for i in range(args.n_layer)])
self.ln_out = nn.LayerNorm(args.n_embd)
self.head = nn.Linear(args.n_embd, args.vocab_size, bias=False)
if args.head_qk > 0:
self.head_q = nn.Linear(args.n_embd, args.head_qk, bias=False)
self.head_k = nn.Linear(args.n_embd, args.head_qk, bias=False)
self.register_buffer(
"copy_mask", torch.tril(torch.ones(args.ctx_len, args.ctx_len))
)
if args.dropout > 0:
self.drop0 = nn.Dropout(p=args.dropout)
def configure_optimizers(self):
args = self.args
lr_decay = set()
lr_1x = set()
lr_2x = set()
lr_3x = set()
for n, p in self.named_parameters():
if ("time_mix" in n) and (args.layerwise_lr > 0):
if args.my_pile_stage == 2:
lr_2x.add(n)
else:
lr_1x.add(n)
elif ("time_decay" in n) and (args.layerwise_lr > 0):
if args.my_pile_stage == 2:
lr_3x.add(n)
else:
lr_2x.add(n)
elif ("time_faaaa" in n) and (args.layerwise_lr > 0):
if args.my_pile_stage == 2:
lr_2x.add(n)
else:
lr_1x.add(n)
elif ("time_first" in n) and (args.layerwise_lr > 0):
lr_3x.add(n)
elif (len(p.squeeze().shape) >= 2) and (args.weight_decay > 0):
lr_decay.add(n)
else:
lr_1x.add(n)
lr_decay = sorted(list(lr_decay))
lr_1x = sorted(list(lr_1x))
lr_2x = sorted(list(lr_2x))
lr_3x = sorted(list(lr_3x))
# print('decay', lr_decay)
# print('1x', lr_1x)
# print('2x', lr_2x)
# print('3x', lr_3x)
param_dict = {n: p for n, p in self.named_parameters()}
if args.layerwise_lr > 0:
if args.my_pile_stage == 2:
optim_groups = [
{
"params": [param_dict[n] for n in lr_1x],
"weight_decay": 0.0,
"my_lr_scale": 1.0,
},
{
"params": [param_dict[n] for n in lr_2x],
"weight_decay": 0.0,
"my_lr_scale": 5.0,
}, # test: 2e-3 / args.lr_init},
{
"params": [param_dict[n] for n in lr_3x],
"weight_decay": 0.0,
"my_lr_scale": 5.0,
}, # test: 3e-3 / args.lr_init},
]
else:
optim_groups = [
{
"params": [param_dict[n] for n in lr_1x],
"weight_decay": 0.0,
"my_lr_scale": 1.0,
},
{
"params": [param_dict[n] for n in lr_2x],
"weight_decay": 0.0,
"my_lr_scale": 2.0,
},
{
"params": [param_dict[n] for n in lr_3x],
"weight_decay": 0.0,
"my_lr_scale": 3.0,
},
]
else:
optim_groups = [
{
"params": [param_dict[n] for n in lr_1x],
"weight_decay": 0.0,
"my_lr_scale": 1.0,
}
]
if args.weight_decay > 0:
optim_groups += [
{
"params": [param_dict[n] for n in lr_decay],
"weight_decay": args.weight_decay,
"my_lr_scale": 1.0,
}
]
if self.deepspeed_offload:
return DeepSpeedCPUAdam(
optim_groups,
lr=self.args.lr_init,
betas=self.args.betas,
eps=self.args.adam_eps,
bias_correction=True,
adamw_mode=True,
amsgrad=False,
)
return FusedAdam(
optim_groups,
lr=self.args.lr_init,
betas=self.args.betas,
eps=self.args.adam_eps,
bias_correction=True,
adam_w_mode=True,
amsgrad=False,
)
else:
if self.deepspeed_offload:
return DeepSpeedCPUAdam(
optim_groups,
lr=self.args.lr_init,
betas=self.args.betas,
eps=self.args.adam_eps,
bias_correction=True,
adamw_mode=False,
weight_decay=0,
amsgrad=False,
)
return FusedAdam(
optim_groups,
lr=self.args.lr_init,
betas=self.args.betas,
eps=self.args.adam_eps,
bias_correction=True,
adam_w_mode=False,
weight_decay=0,
amsgrad=False,
)
# return ZeroOneAdam(optim_groups, lr=self.args.lr_init, betas=self.args.betas, eps=self.args.adam_eps, bias_correction=True, weight_decay=0, amsgrad=False, cuda_aware=False)
@property
def deepspeed_offload(self) -> bool:
strategy = self.trainer.strategy
if isinstance(strategy, DeepSpeedStrategy):
cfg = strategy.config["zero_optimization"]
return cfg.get("offload_optimizer") or cfg.get("offload_param")
return False
def forward(self, idx):
args = self.args
B, T = idx.size()
assert T <= args.ctx_len, "Cannot forward, model ctx_len is exhausted."
x = self.emb(idx)
x_emb = x
if args.dropout > 0:
x = self.drop0(x)
if args.tiny_att_dim > 0:
for block in self.blocks:
if args.grad_cp == 1:
if args.lora:
x = torch_checkpoint(block, x, x_emb, use_reentrant=False)
else:
x = deepspeed.checkpointing.checkpoint(block, x, x_emb)
else:
x = block(x, x_emb)
else:
for block in self.blocks:
if args.grad_cp == 1:
if args.lora:
x = torch_checkpoint(block, x, x_emb, use_reentrant=False)
else:
x = deepspeed.checkpointing.checkpoint(block, x)
else:
x = block(x)
x = self.ln_out(x)
if args.head_qk > 0:
q = self.head_q(x)[:, :T, :]
k = self.head_k(x)[:, :T, :]
c = (q @ k.transpose(-2, -1)) * (1.0 / args.head_qk)
c = c.masked_fill(self.copy_mask[:T, :T] == 0, 0)
if "32" in os.environ["RWKV_FLOAT_MODE"]:
c = c @ F.one_hot(idx, num_classes=args.vocab_size)
elif os.environ["RWKV_FLOAT_MODE"] == "fp16":
c = c @ F.one_hot(idx, num_classes=args.vocab_size).half()
elif os.environ["RWKV_FLOAT_MODE"] == "bf16":
c = c @ F.one_hot(idx, num_classes=args.vocab_size).bfloat16()
x = self.head(x) + c
else:
x = self.head(x)
return x
def training_step(self, batch, batch_idx):
args = self.args
if args.my_qa_mask != 1:
idx, targets = batch
logits = self(idx)
loss = F.cross_entropy(logits.view(-1, logits.size(-1)), targets.view(-1))
# if '0' in os.environ["RWKV_MY_TESTING"]:
# print('logits', logits)
# torch.set_printoptions(threshold=10000)
# print('idx', idx)
# exit(0)
else:
idx, targets, mask = batch
mask = mask.view(-1)
sum_mask = torch.sum(mask).item()
# if sum_mask == 0:
# return torch.tensor([0.0], requires_grad=True)
logits = self(idx)
if sum_mask == mask.shape[0]:
loss = F.cross_entropy(
logits.view(-1, logits.size(-1)), targets.view(-1)
)
# print('rank', self.global_rank, 'loss', loss.item())
else:
loss = F.cross_entropy(
logits.view(-1, logits.size(-1)), targets.view(-1), reduction="none"
)
# loss_raw = loss
loss = torch.sum(loss * mask) / sum_mask
# torch.set_printoptions(threshold=10000)
# if True: #self.global_rank == 1:
# tmp = ''
# sss = 0
# ccc = 0
# for i in range(mask.shape[0]):
# if mask[i] > 0:
# tmp += str(idx.view(-1)[i].item()) + ','
# sss += loss_raw.view(-1)[i].float().item()
# ccc += 1
# print('rank', self.global_rank, 'loss', loss.item(), 'lavg', sss / ccc)#, 'tmp', tmp, 'input', idx)
return L2Wrap.apply(loss, logits)
def training_step_end(self, batch_parts):
if pl.__version__[0] != "2":
all = self.all_gather(batch_parts)
if self.trainer.is_global_zero:
self.trainer.my_loss_all = all
def generate_init_weight(self):
print(
f"""
############################################################################
#
# Init model weight (slow for large models)...
#
############################################################################
"""
)
m = {}
for n in self.state_dict():
p = self.state_dict()[n]
shape = p.shape
gain = 1.0
scale = 1.0
if (
"ln_" in n
or ".ln" in n
or "time_" in n
or "_mask" in n
or "pos_emb" in n
or ".mask." in n
):
if "ln_x.weight" in n:
layer_scale = (1 + int(n.split(".")[1])) / self.args.n_layer
m[n] = (p * 0.0) + (layer_scale**0.7)
else:
m[n] = p
else:
if n == "emb.weight":
scale = -1 * self.args.lr_init
else:
if shape[0] > shape[1]:
gain = math.sqrt(shape[0] / shape[1])
zero = [
".att.output.",
".ffn.value.",
".ffn.receptance.",
".ffnPre.value.",
".ffnPre.receptance.",
"head_q.",
".oo.",
".rr.",
]
for kk in zero:
if kk in n:
scale = 0
if n == "head.weight":
scale = 0.5
if "head_k." in n:
scale = 0.1
if "head_q." in n:
scale = 0
print(
f"{str(shape[0]).ljust(5)} {str(shape[1]).ljust(5)} {str(scale).ljust(4)} {n}"
)
if self.args.accelerator.upper() == "GPU":
m[n] = torch.empty((shape[0], shape[1]), device="cuda")
else:
m[n] = torch.empty((shape[0], shape[1]))
if scale == 0:
nn.init.zeros_(m[n])
elif scale < 0:
nn.init.uniform_(m[n], a=scale, b=-scale)
else:
nn.init.orthogonal_(m[n], gain=gain * scale)
m[n] = m[n].cpu()
if os.environ["RWKV_FLOAT_MODE"] == "fp16":
m[n] = m[n].half()
elif os.environ["RWKV_FLOAT_MODE"] == "bf16":
m[n] = m[n].bfloat16()
# if n == "emb.weight":
# print(m[n])
gc.collect()
torch.cuda.empty_cache()
return m

310
finetune/lora/v5/src/trainer.py vendored Normal file
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import os, math, time, datetime, subprocess
import torch
from torch.utils.data import DataLoader
import pytorch_lightning as pl
from pytorch_lightning.utilities import rank_zero_info, rank_zero_only
from .model import LORA_CONFIG
def my_save(args, trainer, dd, ff):
if "14b-run1" in ff:
fn = ff.split("/")[-1]
fff = "/dev/shm/" + fn
torch.save(dd, fff)
subprocess.Popen(f" aws s3 mv {fff} s3://rwkv-14b-4k/{fn} --quiet", shell=True)
elif ("world/14b" in ff) or ("world/7b" in ff):
aa = ff.split("/")[1]
fn = ff.split("/")[-1]
fff = f"/dev/shm/{aa}-{fn}"
torch.save(dd, fff)
subprocess.Popen(
f" aws s3 mv {fff} s3://rwkv-world/{aa}-{fn} --quiet", shell=True
)
else:
if "deepspeed_stage_3" in args.strategy:
trainer.save_checkpoint(ff, weights_only=True)
else:
torch.save(dd, ff)
class train_callback(pl.Callback):
def __init__(self, args):
super().__init__()
self.args = args
def on_train_batch_start(self, trainer, pl_module, batch, batch_idx):
args = self.args
# if args.cuda_cleanup > 0:
# torch.cuda.empty_cache()
real_step = trainer.global_step + args.epoch_begin * args.epoch_steps
# LR schedule
w_step = args.warmup_steps
if args.lr_final == args.lr_init or args.epoch_count == 0:
lr = args.lr_init
else:
decay_step = real_step - args.my_pile_edecay * args.epoch_steps
decay_total = (args.epoch_count - args.my_pile_edecay) * args.epoch_steps
progress = (decay_step - w_step + 1) / (decay_total - w_step)
progress = min(1, max(0, progress))
if args.lr_final == 0 or args.lr_init == 0: # linear decay
lr = args.lr_init + (args.lr_final - args.lr_init) * progress
else: # exp decay
lr = args.lr_init * math.exp(
math.log(args.lr_final / args.lr_init) * pow(progress, 1)
)
# if trainer.is_global_zero:
# print(trainer.global_step, decay_step, decay_total, w_step, progress, lr)
if args.my_exit_tokens != 0: # cosine decay
real_tokens = real_step * args.ctx_len * args.real_bsz
warmup_tokens = w_step * args.ctx_len * args.real_bsz
progress = (real_tokens - warmup_tokens) / (
abs(args.my_exit_tokens) - warmup_tokens
)
progress = max(0, min(1, progress))
lr_final_factor = args.lr_final / args.lr_init
lr_mult = (0.5 + lr_final_factor / 2) + (
0.5 - lr_final_factor / 2
) * math.cos(math.pi * progress)
if args.my_exit_tokens > 0:
lr = args.lr_init * lr_mult
else:
lr = (lr + args.lr_init * lr_mult) / 2
if progress >= 1:
if (trainer.is_global_zero) or ("deepspeed_stage_3" in args.strategy):
my_save(
args,
trainer,
pl_module.state_dict(),
f"{args.proj_dir}/rwkv-final.pth",
)
exit(0)
if trainer.global_step < w_step:
lr = lr * (0.2 + 0.8 * trainer.global_step / w_step)
if args.weight_decay_final > 0:
wd_now = args.weight_decay * math.exp(
math.log(args.weight_decay_final / args.weight_decay) * progress
)
else:
wd_now = args.weight_decay
for param_group in trainer.optimizers[0].param_groups:
if param_group["weight_decay"] > 0:
param_group["weight_decay"] = wd_now
if args.layerwise_lr > 0:
param_group["lr"] = lr * param_group["my_lr_scale"]
# print(param_group["lr"], param_group["my_lr_scale"])
else:
param_group["lr"] = lr
trainer.my_lr = lr
trainer.my_wd = wd_now
# rank_zero_info(f"{real_step} {lr}")
if trainer.global_step == 0:
if trainer.is_global_zero: # logging
trainer.my_loss_sum = 0
trainer.my_loss_count = 0
trainer.my_log = open(args.proj_dir + "/train_log.txt", "a")
trainer.my_log.write(
f"NEW RUN {args.my_timestamp}\n{vars(self.args)}\n"
)
try:
print(f"\n{trainer.strategy.config}\n")
trainer.my_log.write(f"{trainer.strategy.config}\n")
except:
pass
trainer.my_log.flush()
if len(args.wandb) > 0:
print("Login to wandb...")
import wandb
wandb.init(
project=args.wandb,
name=args.run_name + " " + args.my_timestamp,
config=args,
save_code=False,
)
trainer.my_wandb = wandb
def on_train_batch_end(self, trainer, pl_module, outputs, batch, batch_idx):
args = self.args
token_per_step = args.ctx_len * args.real_bsz
real_step = trainer.global_step + args.epoch_begin * args.epoch_steps
if trainer.is_global_zero: # logging
t_now = time.time_ns()
kt_s = 0
try:
t_cost = (t_now - trainer.my_time_ns) / 1e9
kt_s = token_per_step / t_cost / 1000
self.log("REAL it/s", 1.0 / t_cost, prog_bar=True, on_step=True)
self.log("Kt/s", kt_s, prog_bar=True, on_step=True)
except:
pass
trainer.my_time_ns = t_now
if pl.__version__[0] == "2":
trainer.my_loss = outputs["loss"]
else:
trainer.my_loss = trainer.my_loss_all.float().mean().item()
trainer.my_loss_sum += trainer.my_loss
trainer.my_loss_count += 1
trainer.my_epoch_loss = trainer.my_loss_sum / trainer.my_loss_count
self.log("lr", trainer.my_lr, prog_bar=True, on_step=True)
self.log("loss", trainer.my_epoch_loss, prog_bar=True, on_step=True)
# self.log("s", real_step, prog_bar=True, on_step=True)
if len(args.wandb) > 0:
lll = {
"loss": trainer.my_loss,
"lr": trainer.my_lr,
"wd": trainer.my_wd,
"Gtokens": real_step * token_per_step / 1e9,
}
if kt_s > 0:
lll["kt/s"] = kt_s
trainer.my_wandb.log(lll, step=int(real_step))
if (trainer.is_global_zero) or (
"deepspeed_stage_3" in args.strategy
): # save pth
if args.magic_prime > 0:
expand_factor = 2 if args.my_qa_mask > 0 else 1
if int(real_step) == int(
args.magic_prime * expand_factor // args.real_bsz
) - 1 + int(args.my_random_steps):
to_save_dict = pl_module.state_dict()
my_save(
args,
trainer,
to_save_dict,
f"{args.proj_dir}/rwkv-final.pth",
)
# if args.batch_save==batch_idx :
# to_save_dict = pl_module.state_dict()
# for name, state in to_save_dict.items():
# if 'img' in name:
# to_save_dict[name] = state
# try:
# my_save(
# args, trainer,
# to_save_dict,
# f"{args.proj_dir}/rwkv-{args.epoch_begin + trainer.current_epoch}-{batch_idx}.pth",
# )
# except Exception as e:
# print('Error\n\n', e, '\n\n')
def on_train_epoch_start(self, trainer, pl_module):
args = self.args
if pl.__version__[0] == "2":
dataset = trainer.train_dataloader.dataset
else:
dataset = trainer.train_dataloader.dataset.datasets
assert "MyDataset" in str(dataset)
dataset.global_rank = trainer.global_rank
dataset.real_epoch = int(args.epoch_begin + trainer.current_epoch)
dataset.world_size = trainer.world_size
# print(f'########## world_size {dataset.world_size} global_rank {dataset.global_rank} real_epoch {dataset.real_epoch} ##########')
def on_train_epoch_end(self, trainer, pl_module):
args = self.args
to_save_dict = {}
if (trainer.is_global_zero) or (
"deepspeed_stage_3" in args.strategy
): # save pth
if (
args.epoch_save > 0 and trainer.current_epoch % args.epoch_save == 0
) or (trainer.current_epoch == args.epoch_count - 1):
if args.data_type == "wds_img":
raw_dict = pl_module.state_dict()
for k in raw_dict:
if k.startswith("encoder.") or k.startswith("decoder."):
to_save_dict[k] = raw_dict[k]
else:
to_save_dict = pl_module.state_dict()
if args.data_type == "img" and not args.lora:
for name, state in to_save_dict.items():
if "img" in name:
to_save_dict[name] = state
if args.lora:
enable_time_finetune = "time" in LORA_CONFIG["parts"]
enable_ln_finetune = "ln" in LORA_CONFIG["parts"]
lora_dict = {}
for name, state in to_save_dict.items():
if "img" in name:
lora_dict[name] = state
if (
".lora_" in name
or (enable_time_finetune and ".time_" in name)
or (enable_ln_finetune and ".ln" in name)
):
lora_dict[name] = state
to_save_dict = lora_dict
try:
my_save(
args,
trainer,
to_save_dict,
f"{args.proj_dir}/rwkv-{args.epoch_begin + trainer.current_epoch}.pth",
)
except Exception as e:
print("Error\n\n", e, "\n\n")
if trainer.is_global_zero: # logging
trainer.my_log.write(
f"{args.epoch_begin + trainer.current_epoch} {trainer.my_epoch_loss:.6f} {math.exp(trainer.my_epoch_loss):.4f} {trainer.my_lr:.8f} {datetime.datetime.now()} {trainer.current_epoch}\n"
)
trainer.my_log.flush()
trainer.my_loss_sum = 0
trainer.my_loss_count = 0
if (args.epoch_begin + trainer.current_epoch) >= args.my_exit:
exit(0)
@rank_zero_only
def generate_init_weight(model, init_weight_name):
mm = model.generate_init_weight()
if model.args.my_pile_stage == 1:
if len(model.args.load_model) > 0:
print(f"Combine weights from {model.args.load_model}...")
load_dict = torch.load(model.args.load_model, map_location="cpu")
for k in load_dict:
try:
assert k in mm
except:
print("missing", k)
exit(0)
src = load_dict[k]
try:
mm[k] = src.reshape(mm[k].shape)
except:
tmp = mm[k].squeeze().clone()
print(k, src.shape, "-->", mm[k].shape)
ss = src.shape[0]
dd = tmp.shape[0]
for i in range(dd):
pos = i / dd * ss
if pos >= ss - 1:
tmp[i] = src[ss - 1]
else:
p0 = int(math.floor(pos))
ii = pos - p0
tmp[i] = src[p0] * (1 - ii) + src[p0 + 1] * (ii)
mm[k] = tmp.reshape(mm[k].shape)
sss = src.squeeze().float().cpu().numpy()
print(sss[:10], "...", sss[-10:])
mmm = mm[k].squeeze().float().cpu().numpy()
print(mmm[:10], "...", mmm[-10:])
print(f"Save to {init_weight_name}...")
torch.save(mm, init_weight_name)
if model.args.my_pile_stage == 1:
print("Done. Now go for stage 2.")
exit(0)

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finetune/lora/v5/src/utils.py vendored Normal file
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import json, time, random, os
import numpy as np
import torch
from torch.nn import functional as F
time_slot = {}
time_ref = time.time_ns()
def record_time(name):
if name not in time_slot:
time_slot[name] = 1e20
tt = (time.time_ns() - time_ref) / 1e9
if tt < time_slot[name]:
time_slot[name] = tt
class TOKENIZER:
def __init__(self, WORD_NAME, UNKNOWN_CHAR="\ue083"):
if "list" in str(type(WORD_NAME)):
self.charMode = False
if WORD_NAME[0] == WORD_NAME[1]:
from transformers import PreTrainedTokenizerFast
self.tokenizer = PreTrainedTokenizerFast(tokenizer_file=WORD_NAME[0])
else:
from transformers import GPT2TokenizerFast
self.tokenizer = GPT2TokenizerFast(WORD_NAME[0], WORD_NAME[1])
self.vocab_size = len(self.tokenizer)
else:
self.charMode = True
with open(WORD_NAME + ".json", "r", encoding="utf-16") as result_file:
self.word_table = json.load(result_file)
self.vocab_size = len(self.word_table)
self.stoi = {v: int(k) for k, v in self.word_table.items()}
self.itos = {int(k): v for k, v in self.word_table.items()}
self.UNKNOWN_CHAR = self.stoi[UNKNOWN_CHAR]
def refine_context(self, context):
context = context.strip().split("\n")
for c in range(len(context)):
context[c] = context[c].strip().strip("\u3000").strip("\r")
context = list(filter(lambda c: c != "", context))
context = "\n" + ("\n".join(context)).strip()
if context == "":
context = "\n"
return context
def sample_logits(
self, out, x, ctx_len, temperature=1.0, top_p_usual=None, top_p_newline=None
):
# out[self.UNKNOWN_CHAR] = -float('Inf')
lastChar = int(x[-1])
probs = F.softmax(out, dim=-1)
if self.charMode:
if self.itos[lastChar] == "\n":
top_p = top_p_newline
else:
top_p = top_p_usual
else:
top_p = top_p_usual
if os.environ["RWKV_RUN_DEVICE"] == "cpu":
probs = probs.numpy()
sorted_probs = np.sort(probs)[::-1]
cumulative_probs = np.cumsum(sorted_probs)
cutoff = float(sorted_probs[np.argmax(cumulative_probs > top_p)])
probs[probs < cutoff] = 0
if temperature != 1.0:
probs = probs.pow(1.0 / temperature)
probs = probs / np.sum(probs)
out = np.random.choice(a=len(probs), p=probs)
return out
else:
sorted_probs = torch.sort(probs, descending=True)[0]
cumulative_probs = torch.cumsum(sorted_probs, dim=-1).cpu().numpy()
cutoff = float(sorted_probs[np.argmax(cumulative_probs > top_p)])
probs[probs < cutoff] = 0
if temperature != 1.0:
probs = probs.pow(1.0 / temperature)
out = torch.multinomial(probs, num_samples=1)[0]
return out
def MaybeIsPrime(number):
if FermatPrimalityTest(number) and MillerRabinPrimalityTest(number):
return True
else:
return False
def FermatPrimalityTest(number):
if number > 1:
for time in range(3):
randomNumber = random.randint(2, number) - 1
if pow(randomNumber, number - 1, number) != 1:
return False
return True
else:
return False
def MillerRabinPrimalityTest(number):
if number == 2:
return True
elif number == 1 or number % 2 == 0:
return False
oddPartOfNumber = number - 1
timesTwoDividNumber = 0
while oddPartOfNumber % 2 == 0:
oddPartOfNumber = oddPartOfNumber // 2
timesTwoDividNumber = timesTwoDividNumber + 1
for time in range(3):
while True:
randomNumber = random.randint(2, number) - 1
if randomNumber != 0 and randomNumber != 1:
break
randomNumberWithPower = pow(randomNumber, oddPartOfNumber, number)
if (randomNumberWithPower != 1) and (randomNumberWithPower != number - 1):
iterationNumber = 1
while (iterationNumber <= timesTwoDividNumber - 1) and (
randomNumberWithPower != number - 1
):
randomNumberWithPower = pow(randomNumberWithPower, 2, number)
iterationNumber = iterationNumber + 1
if randomNumberWithPower != (number - 1):
return False
return True

436
finetune/lora/v5/train.py vendored Normal file
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########################################################################################################
# The RWKV Language Model - https://github.com/BlinkDL/RWKV-LM
########################################################################################################
import logging
logging.basicConfig(level=logging.INFO)
if __name__ == "__main__":
from argparse import ArgumentParser
from pytorch_lightning import Trainer
from pytorch_lightning.utilities import rank_zero_info, rank_zero_only
import pytorch_lightning as pl
rank_zero_info("########## work in progress ##########")
parser = ArgumentParser()
parser.add_argument("--load_model", default="", type=str) # full path, with .pth
parser.add_argument(
"--wandb", default="", type=str
) # wandb project name. if "" then don't use wandb
parser.add_argument("--proj_dir", default="out", type=str)
parser.add_argument("--random_seed", default="-1", type=int)
parser.add_argument("--data_file", default="", type=str)
parser.add_argument("--data_type", default="utf-8", type=str)
parser.add_argument(
"--vocab_size", default=0, type=int
) # vocab_size = 0 means auto (for char-level LM and .txt data)
parser.add_argument("--ctx_len", default=1024, type=int)
parser.add_argument(
"--epoch_steps", default=1000, type=int
) # a mini "epoch" has [epoch_steps] steps
parser.add_argument(
"--epoch_count", default=500, type=int
) # train for this many "epochs". will continue afterwards with lr = lr_final
parser.add_argument(
"--epoch_begin", default=0, type=int
) # if you load a model trained for x "epochs", set epoch_begin = x
parser.add_argument(
"--epoch_save", default=5, type=int
) # save the model every [epoch_save] "epochs"
parser.add_argument(
"--micro_bsz", default=12, type=int
) # micro batch size (batch size per GPU)
parser.add_argument("--n_layer", default=6, type=int)
parser.add_argument("--n_embd", default=512, type=int)
parser.add_argument("--dim_att", default=0, type=int)
parser.add_argument("--dim_ffn", default=0, type=int)
parser.add_argument(
"--pre_ffn", default=0, type=int
) # replace first att layer by ffn (sometimes better)
parser.add_argument("--head_qk", default=0, type=int) # my headQK trick
parser.add_argument("--tiny_att_dim", default=0, type=int) # tiny attention dim
parser.add_argument(
"--tiny_att_layer", default=-999, type=int
) # tiny attention @ which layer
parser.add_argument(
"--lr_init", default=6e-4, type=float
) # 6e-4 for L12-D768, 4e-4 for L24-D1024, 3e-4 for L24-D2048
parser.add_argument("--lr_final", default=1e-5, type=float)
parser.add_argument(
"--warmup_steps", default=-1, type=int
) # try 50 if you load a model
parser.add_argument("--beta1", default=0.9, type=float)
parser.add_argument(
"--beta2", default=0.99, type=float
) # use 0.999 when your model is close to convergence
parser.add_argument("--adam_eps", default=1e-8, type=float)
parser.add_argument(
"--grad_cp", default=0, type=int
) # gradient checkpt: saves VRAM, but slower
parser.add_argument(
"--dropout", default=0, type=float
) # try 0.01 / 0.02 / 0.05 / 0.1
parser.add_argument(
"--weight_decay", default=0, type=float
) # try 0.1 / 0.01 / 0.001
parser.add_argument("--weight_decay_final", default=-1, type=float)
parser.add_argument(
"--my_pile_version", default=1, type=int
) # my special pile version
parser.add_argument("--my_pile_stage", default=0, type=int) # my special pile mode
parser.add_argument(
"--my_pile_shift", default=-1, type=int
) # my special pile mode - text shift
parser.add_argument("--my_pile_edecay", default=0, type=int)
parser.add_argument(
"--layerwise_lr", default=1, type=int
) # layerwise lr for faster convergence (but slower it/s)
parser.add_argument(
"--ds_bucket_mb", default=200, type=int
) # deepspeed bucket size in MB. 200 seems enough
# parser.add_argument("--cuda_cleanup", default=0, type=int) # extra cuda cleanup (sometimes helpful)
parser.add_argument("--my_sample_len", default=0, type=int)
parser.add_argument("--my_ffn_shift", default=1, type=int)
parser.add_argument("--my_att_shift", default=1, type=int)
parser.add_argument(
"--head_size_a", default=64, type=int
) # can try larger values for larger models
parser.add_argument("--head_size_divisor", default=8, type=int)
parser.add_argument("--my_pos_emb", default=0, type=int)
parser.add_argument("--load_partial", default=0, type=int)
parser.add_argument("--magic_prime", default=0, type=int)
parser.add_argument("--my_qa_mask", default=0, type=int)
parser.add_argument("--my_random_steps", default=0, type=int)
parser.add_argument("--my_testing", default="", type=str)
parser.add_argument("--my_exit", default=99999999, type=int)
parser.add_argument("--my_exit_tokens", default=0, type=int)
# LORA
parser.add_argument("--emb", action="store_true")
parser.add_argument("--lora", action="store_true")
parser.add_argument("--lora_load", default="", type=str)
parser.add_argument("--lora_r", default=8, type=int)
parser.add_argument("--lora_alpha", default=32, type=float)
parser.add_argument("--lora_dropout", default=0.01, type=float)
parser.add_argument("--lora_parts", default="att,ln,time", type=str)
if pl.__version__[0] == "2":
parser.add_argument("--accelerator", default="gpu", type=str)
parser.add_argument("--strategy", default="auto", type=str)
parser.add_argument("--devices", default=1, type=int)
parser.add_argument("--num_nodes", default=1, type=int)
parser.add_argument("--precision", default="fp16", type=str)
parser.add_argument("--accumulate_grad_batches", default=1, type=int)
else:
parser = Trainer.add_argparse_args(parser)
args = parser.parse_args()
########################################################################################################
import os, warnings, math, datetime, sys, time
import numpy as np
import torch
from torch.utils.data import DataLoader
if "deepspeed" in args.strategy:
import deepspeed
from pytorch_lightning import seed_everything
if args.random_seed >= 0:
print(
f"########## WARNING: GLOBAL SEED {args.random_seed} THIS WILL AFFECT MULTIGPU SAMPLING ##########\n"
* 3
)
seed_everything(args.random_seed)
np.set_printoptions(precision=4, suppress=True, linewidth=200)
warnings.filterwarnings(
"ignore", ".*Consider increasing the value of the `num_workers` argument*"
)
warnings.filterwarnings(
"ignore", ".*The progress bar already tracks a metric with the*"
)
# os.environ["WDS_SHOW_SEED"] = "1"
args.my_timestamp = datetime.datetime.today().strftime("%Y-%m-%d-%H-%M-%S")
args.enable_checkpointing = False
args.replace_sampler_ddp = False
args.logger = False
args.gradient_clip_val = 1.0
args.num_sanity_val_steps = 0
args.check_val_every_n_epoch = int(1e20)
args.log_every_n_steps = int(1e20)
args.max_epochs = args.epoch_count # -1 continue forever
args.betas = (args.beta1, args.beta2)
args.real_bsz = int(args.num_nodes) * int(args.devices) * args.micro_bsz
os.environ["RWKV_MY_TESTING"] = args.my_testing
os.environ["RWKV_HEAD_SIZE_A"] = str(args.head_size_a)
if args.dim_att <= 0:
args.dim_att = args.n_embd
if args.dim_ffn <= 0:
args.dim_ffn = int((args.n_embd * 3.5) // 32 * 32) # default = 3.5x emb size
if args.data_type == "wds_img":
args.run_name = f"v{args.my_img_version}-{args.my_img_size}-{args.my_img_bit}bit-{args.my_img_clip}x{args.my_img_clip_scale}"
args.proj_dir = f"{args.proj_dir}-{args.run_name}"
else:
args.run_name = (
f"{args.vocab_size} ctx{args.ctx_len} L{args.n_layer} D{args.n_embd}"
)
if not os.path.exists(args.proj_dir):
os.makedirs(args.proj_dir)
if args.my_pile_stage > 0:
magic_prime_bak = args.magic_prime
if args.my_pile_shift < 0:
args.my_pile_shift = 0
if magic_prime_bak > 0:
args.magic_prime = magic_prime_bak
if args.my_qa_mask == 2:
args.epoch_count = 2 * args.magic_prime // 40320
else:
args.epoch_count = args.magic_prime // 40320
args.epoch_steps = 40320 // args.real_bsz
assert args.epoch_steps * args.real_bsz == 40320
# if args.my_pile_stage == 2:
# assert args.lr_final == args.lr_init
if args.my_pile_stage >= 2: # find latest saved model
list_p = []
for p in os.listdir(args.proj_dir):
if p.startswith("rwkv") and p.endswith(".pth"):
p = ((p.split("-"))[1].split("."))[0]
if p != "final":
if p == "init":
p = -1
else:
p = int(p)
list_p += [p]
list_p.sort()
max_p = list_p[-1]
if len(list_p) > 1:
args.my_pile_prev_p = list_p[-2] # in case max_p is corrupted
if max_p == -1:
args.load_model = f"{args.proj_dir}/rwkv-init.pth"
else:
args.load_model = f"{args.proj_dir}/rwkv-{max_p}.pth"
if args.warmup_steps < 0:
if args.my_pile_stage == 2:
args.warmup_steps = 10
else:
args.warmup_steps = 30
args.epoch_begin = max_p + 1
samples_per_epoch = args.epoch_steps * args.real_bsz
tokens_per_epoch = samples_per_epoch * args.ctx_len
try:
deepspeed_version = deepspeed.__version__
except:
deepspeed_version = None
pass
rank_zero_info(
f"""
############################################################################
#
# RWKV-5 {args.precision.upper()} on {args.num_nodes}x{args.devices} {args.accelerator.upper()}, bsz {args.num_nodes}x{args.devices}x{args.micro_bsz}={args.real_bsz}, {args.strategy} {'with grad_cp' if args.grad_cp > 0 else ''}
#
# Data = {args.data_file} ({args.data_type}), ProjDir = {args.proj_dir}
#
# Epoch = {args.epoch_begin} to {args.epoch_begin + args.epoch_count - 1}, save every {args.epoch_save} epoch
#
# Each "epoch" = {args.epoch_steps} steps, {samples_per_epoch} samples, {tokens_per_epoch} tokens
#
# Model = {args.n_layer} n_layer, {args.n_embd} n_embd, {args.ctx_len} ctx_len
#
# Adam = lr {args.lr_init} to {args.lr_final}, warmup {args.warmup_steps} steps, beta {args.betas}, eps {args.adam_eps}
#
# Found torch {torch.__version__}, recommend 1.13.1+cu117 or newer
# Found deepspeed {deepspeed_version}, recommend 0.7.0 (faster than newer versions)
# Found pytorch_lightning {pl.__version__}, recommend 1.9.5
#
############################################################################
"""
)
rank_zero_info(str(vars(args)) + "\n")
assert args.data_type in ["utf-8", "utf-16le", "numpy", "binidx", "dummy", "uint16"]
if args.lr_final == 0 or args.lr_init == 0:
rank_zero_info(
"\n\nNote: lr_final = 0 or lr_init = 0. Using linear LR schedule instead.\n\n"
)
assert args.precision in ["fp32", "tf32", "fp16", "bf16"]
os.environ["RWKV_FLOAT_MODE"] = args.precision
if args.precision == "fp32":
for i in range(10):
rank_zero_info(
"\n\nNote: you are using fp32 (very slow). Try bf16 / tf32 for faster training.\n\n"
)
if args.precision == "fp16":
rank_zero_info(
"\n\nNote: you are using fp16 (might overflow). Try bf16 / tf32 for stable training.\n\n"
)
os.environ["RWKV_JIT_ON"] = "0"
if "deepspeed_stage_3" in args.strategy:
os.environ["RWKV_JIT_ON"] = "0"
torch.backends.cudnn.benchmark = True
torch.backends.cudnn.enabled = True
if args.precision == "fp32":
torch.backends.cudnn.allow_tf32 = False
torch.backends.cuda.matmul.allow_tf32 = False
else:
torch.backends.cudnn.allow_tf32 = True
torch.backends.cuda.matmul.allow_tf32 = True
if "32" in args.precision:
args.precision = 32
elif args.precision == "fp16":
args.precision = 16
else:
args.precision = "bf16"
########################################################################################################
from src.trainer import train_callback, generate_init_weight
from src.dataset import MyDataset
train_data = MyDataset(args)
args.vocab_size = train_data.vocab_size
from src.model import RWKV, LORA_CONFIG, LoraLinear
if args.lora:
assert args.lora_r > 0, "LoRA should have its `r` > 0"
LORA_CONFIG["r"] = args.lora_r
LORA_CONFIG["alpha"] = args.lora_alpha
LORA_CONFIG["dropout"] = args.lora_dropout
LORA_CONFIG["parts"] = set(str(args.lora_parts).split(","))
enable_time_finetune = "time" in LORA_CONFIG["parts"]
enable_ln_finetune = "ln" in LORA_CONFIG["parts"]
model = RWKV(args)
# only train lora parameters
if args.lora:
model.requires_grad_(False)
for name, module in model.named_modules():
if any(n.startswith("lora_") for n, _ in module.named_parameters()):
print(f" LoRA additionally training module {name}")
for pname, param in module.named_parameters():
param.requires_grad = "lora_" in pname
elif enable_ln_finetune and ".ln" in name:
print(f" LoRA additionally training module {name}")
for param in module.parameters():
param.requires_grad = True
elif enable_time_finetune and any(
n.startswith("time") for n, _ in module.named_parameters()
):
for pname, param in module.named_parameters():
if pname.startswith("time"):
print(f" LoRA additionally training parameter {pname}")
param.requires_grad = True
if (
len(args.load_model) == 0 or args.my_pile_stage == 1
): # shall we build the initial weights?
init_weight_name = f"{args.proj_dir}/rwkv-init.pth"
generate_init_weight(model, init_weight_name) # save initial weights
args.load_model = init_weight_name
rank_zero_info(f"########## Loading {args.load_model}... ##########")
try:
load_dict = torch.load(args.load_model, map_location="cpu")
load_keys = list(load_dict.keys())
for k in load_keys:
if k.startswith("_forward_module."):
load_dict[k.replace("_forward_module.", "")] = load_dict[k]
del load_dict[k]
except:
rank_zero_info(f"Bad checkpoint {args.load_model}")
if args.my_pile_stage >= 2: # try again using another checkpoint
max_p = args.my_pile_prev_p
if max_p == -1:
args.load_model = f"{args.proj_dir}/rwkv-init.pth"
else:
args.load_model = f"{args.proj_dir}/rwkv-{max_p}.pth"
args.epoch_begin = max_p + 1
rank_zero_info(f"Trying {args.load_model}")
load_dict = torch.load(args.load_model, map_location="cpu")
if args.load_partial == 1:
load_keys = load_dict.keys()
for k in model.state_dict():
if k not in load_keys:
load_dict[k] = model.state_dict()[k]
# model.load_state_dict(load_dict)
model.load_state_dict(load_dict, strict=(not args.lora))
if os.path.isfile(args.lora_load):
model.load_state_dict(
torch.load(args.lora_load, map_location="cpu"), strict=False
)
if pl.__version__[0] == "2":
trainer = Trainer(
accelerator=args.accelerator,
strategy=args.strategy,
devices=args.devices,
num_nodes=args.num_nodes,
precision=args.precision,
logger=args.logger,
callbacks=[train_callback(args)],
max_epochs=args.max_epochs,
check_val_every_n_epoch=args.check_val_every_n_epoch,
num_sanity_val_steps=args.num_sanity_val_steps,
log_every_n_steps=args.log_every_n_steps,
enable_checkpointing=args.enable_checkpointing,
accumulate_grad_batches=args.accumulate_grad_batches,
gradient_clip_val=args.gradient_clip_val,
)
else:
trainer = Trainer.from_argparse_args(
args,
callbacks=[train_callback(args)],
)
if trainer.global_rank == 0:
for n in model.state_dict():
shape = model.state_dict()[n].shape
shape = [i for i in shape if i != 1]
if len(shape) > 1:
print(f"{str(shape[0]).ljust(5)} {str(shape[1]).ljust(5)} {n}")
else:
print(f"{str(shape[0]).ljust(5)} {n}")
if "deepspeed" in args.strategy:
trainer.strategy.config["zero_optimization"]["allgather_bucket_size"] = (
args.ds_bucket_mb * 1000 * 1000
)
trainer.strategy.config["zero_optimization"]["reduce_bucket_size"] = (
args.ds_bucket_mb * 1000 * 1000
)
# must set shuffle=False, persistent_workers=False (because worker is in another thread)
data_loader = DataLoader(
train_data,
shuffle=False,
pin_memory=True,
batch_size=args.micro_bsz,
num_workers=1,
persistent_workers=False,
drop_last=True,
)
trainer.fit(model, data_loader)

32
frontend/package-lock.json generated
View File

@@ -13,11 +13,13 @@
"@magenta/music": "^1.23.1",
"@microsoft/fetch-event-source": "^2.0.1",
"@primer/octicons-react": "^19.1.0",
"abcjs": "^6.2.3",
"chart.js": "^4.3.0",
"classnames": "^2.3.2",
"file-saver": "^2.0.5",
"html-midi-player": "^1.5.0",
"i18next": "^22.4.15",
"lodash-es": "^4.17.21",
"mobx": "^6.9.0",
"mobx-react-lite": "^3.4.3",
"pdfjs-dist": "^4.0.189",
@@ -40,6 +42,7 @@
},
"devDependencies": {
"@types/file-saver": "^2.0.7",
"@types/lodash-es": "^4.17.12",
"@types/react": "^18.2.6",
"@types/react-beautiful-dnd": "^13.1.4",
"@types/react-dom": "^18.2.4",
@@ -2533,6 +2536,21 @@
"hoist-non-react-statics": "^3.3.0"
}
},
"node_modules/@types/lodash": {
"version": "4.14.202",
"resolved": "https://registry.npmjs.org/@types/lodash/-/lodash-4.14.202.tgz",
"integrity": "sha512-OvlIYQK9tNneDlS0VN54LLd5uiPCBOp7gS5Z0f1mjoJYBrtStzgmJBxONW3U6OZqdtNzZPmn9BS/7WI7BFFcFQ==",
"dev": true
},
"node_modules/@types/lodash-es": {
"version": "4.17.12",
"resolved": "https://registry.npmjs.org/@types/lodash-es/-/lodash-es-4.17.12.tgz",
"integrity": "sha512-0NgftHUcV4v34VhXm8QBSftKVXtbkBG3ViCjs6+eJ5a6y6Mi/jiFGPc1sC7QK+9BFhWrURE3EOggmWaSxL9OzQ==",
"dev": true,
"dependencies": {
"@types/lodash": "*"
}
},
"node_modules/@types/long": {
"version": "4.0.2",
"resolved": "https://registry.npmjs.org/@types/long/-/long-4.0.2.tgz",
@@ -2673,6 +2691,15 @@
"integrity": "sha512-nne9/IiQ/hzIhY6pdDnbBtz7DjPTKrY00P/zvPSm5pOFkl6xuGrGnXn/VtTNNfNtAfZ9/1RtehkszU9qcTii0Q==",
"optional": true
},
"node_modules/abcjs": {
"version": "6.2.3",
"resolved": "https://registry.npmjs.org/abcjs/-/abcjs-6.2.3.tgz",
"integrity": "sha512-epu8C1yRkxV7Ss9hS0Bu72rairl1p2sR3hviVowjtdDJvb5GRE0SrB4TtN4HBbaoYhvxGnSZQxGULfQlW3o3RQ==",
"funding": {
"type": "github",
"url": "https://github.com/sponsors/paulrosen"
}
},
"node_modules/acorn": {
"version": "7.4.1",
"resolved": "https://registry.npmjs.org/acorn/-/acorn-7.4.1.tgz",
@@ -4210,6 +4237,11 @@
"integrity": "sha512-7ylylesZQ/PV29jhEDl3Ufjo6ZX7gCqJr5F7PKrqc93v7fzSymt1BpwEU8nAUXs8qzzvqhbjhK5QZg6Mt/HkBg==",
"dev": true
},
"node_modules/lodash-es": {
"version": "4.17.21",
"resolved": "https://registry.npmjs.org/lodash-es/-/lodash-es-4.17.21.tgz",
"integrity": "sha512-mKnC+QJ9pWVzv+C4/U3rRsHapFfHvQFoFB92e52xeyGMcX6/OlIl78je1u8vePzYZSkkogMPJ2yjxxsb89cxyw=="
},
"node_modules/long": {
"version": "4.0.0",
"resolved": "https://registry.npmjs.org/long/-/long-4.0.0.tgz",

3
frontend/package.json
View File

@@ -14,11 +14,13 @@
"@magenta/music": "^1.23.1",
"@microsoft/fetch-event-source": "^2.0.1",
"@primer/octicons-react": "^19.1.0",
"abcjs": "^6.2.3",
"chart.js": "^4.3.0",
"classnames": "^2.3.2",
"file-saver": "^2.0.5",
"html-midi-player": "^1.5.0",
"i18next": "^22.4.15",
"lodash-es": "^4.17.21",
"mobx": "^6.9.0",
"mobx-react-lite": "^3.4.3",
"pdfjs-dist": "^4.0.189",
@@ -41,6 +43,7 @@
},
"devDependencies": {
"@types/file-saver": "^2.0.7",
"@types/lodash-es": "^4.17.12",
"@types/react": "^18.2.6",
"@types/react-beautiful-dnd": "^13.1.4",
"@types/react-dom": "^18.2.4",

8
frontend/src/_locales/ja/main.json
View File

@@ -162,7 +162,7 @@
"Memory is not enough, try to increase the virtual memory or use a smaller model.": "メモリが不足しています。仮想メモリを増やすか、もしくは小さなモデルを使ってみてください",
"Bad PyTorch version, please reinstall PyTorch with cuda.": "不適切なPyTorchのバージョンです。cudaと共にPyTorchを再インストールしてください。",
"The model file is corrupted, please download again.": "モデルファイルが破損しています。再度ダウンロードしてください。",
"Found no NVIDIA driver, please install the latest driver.": "NVIDIAのドライバが見つかりません。最新版のドライバをインストールしてください。",
"Found no NVIDIA driver, please install the latest driver. If you are not using an Nvidia GPU, please switch the 'Strategy' to WebGPU or CPU in the Configs page.": "NVIDIAのドライバが見つかりません。最新版のドライバをインストールしてください。NvidiaのGPUを使用していない場合は、設定ページで\"Strategy\"をWebGPUまたはCPUに切り替えてください。",
"VRAM is not enough, please reduce stored layers or use a lower precision in Configs page.": "VRAMが足りません。設定ページで保存されているレイヤーを減らすか、精度を下げてください。",
"Failed to enable custom CUDA kernel, ninja is required to load C++ extensions. You may be using the CPU version of PyTorch, please reinstall PyTorch with CUDA. Or if you are using a custom Python interpreter, you must compile the CUDA kernel by yourself or disable Custom CUDA kernel acceleration.": "カスタムCUDAカーネルの有効化に失敗しました。C++拡張を読み込むためにはNinjaが必要です。あなたは恐らくCPU版のPyTorchを使用しており、CUDA版のPyTorchを再インストールする必要があります。または、あなたがカスタムPythonインタプリタを使用している場合は、CUDAカーネルを自分でコンパイルするか、カスタムCUDAカーネルのアクセラレーションを無効にする必要があります。",
"Presets": "プリセット",
@@ -312,6 +312,8 @@
"JP": "日本語",
"Music": "音楽",
"Other": "その他",
"Role Play": "ロールプレイ",
"Recommended": "おすすめ",
"Import MIDI": "MIDIをインポート",
"Current Instrument": "現在の楽器",
"Please convert model to GGML format first": "モデルをGGML形式に変換してください",
@@ -320,5 +322,7 @@
"Play With External Player": "外部プレーヤーで再生",
"Core API URL": "コアAPI URL",
"Override core API URL(/chat/completions and /completions). If you don't know what this is, leave it blank.": "コアAPI URLを上書きします(/chat/completions と /completions)。何であるかわからない場合は空白のままにしてください。",
"Please change Strategy to CPU (rwkv.cpp) to use ggml format": "StrategyをCPU (rwkv.cpp)に変更して、ggml形式を使用してください"
"Please change Strategy to CPU (rwkv.cpp) to use ggml format": "StrategyをCPU (rwkv.cpp)に変更して、ggml形式を使用してください",
"Only Auto Play Generated Content": "生成されたコンテンツのみ自動再生",
"Model has been converted and does not match current strategy. If you are using a new strategy, re-convert the model.": "モデルが変換され、現在の戦略と一致しません。新しい戦略を使用している場合は、モデルを再変換してください。"
}

8
frontend/src/_locales/zh-hans/main.json
View File

@@ -162,7 +162,7 @@
"Memory is not enough, try to increase the virtual memory or use a smaller model.": "内存不足,尝试增加虚拟内存,或使用一个更小规模的模型",
"Bad PyTorch version, please reinstall PyTorch with cuda.": "错误的PyTorch版本请重新安装CUDA版本的PyTorch",
"The model file is corrupted, please download again.": "模型文件损坏,请重新下载",
"Found no NVIDIA driver, please install the latest driver.": "没有找到NVIDIA驱动请安装最新驱动",
"Found no NVIDIA driver, please install the latest driver. If you are not using an Nvidia GPU, please switch the 'Strategy' to WebGPU or CPU in the Configs page.": "没有找到NVIDIA驱动请安装最新驱动。如果你没有使用Nvidia显卡请在配置页面将“Strategy”改为WebGPU或CPU",
"VRAM is not enough, please reduce stored layers or use a lower precision in Configs page.": "显存不足,请在配置页面减少载入显存层数,或使用更低的精度",
"Failed to enable custom CUDA kernel, ninja is required to load C++ extensions. You may be using the CPU version of PyTorch, please reinstall PyTorch with CUDA. Or if you are using a custom Python interpreter, you must compile the CUDA kernel by yourself or disable Custom CUDA kernel acceleration.": "自定义CUDA算子开启失败需要安装Ninja来读取C++扩展。你可能正在使用CPU版本的PyTorch请重新安装CUDA版本的PyTorch。如果你正在使用自定义Python解释器你必须自己编译CUDA算子或禁用自定义CUDA算子加速",
"Presets": "预设",
@@ -312,6 +312,8 @@
"JP": "日文",
"Music": "音乐",
"Other": "其他",
"Role Play": "角色扮演",
"Recommended": "推荐",
"Import MIDI": "导入MIDI",
"Current Instrument": "当前乐器",
"Please convert model to GGML format first": "请先将模型转换为GGML格式",
@@ -320,5 +322,7 @@
"Play With External Player": "使用外部播放器播放",
"Core API URL": "核心 API URL",
"Override core API URL(/chat/completions and /completions). If you don't know what this is, leave it blank.": "覆盖核心的 API URL (/chat/completions 和 /completions)。如果你不知道这是什么,请留空",
"Please change Strategy to CPU (rwkv.cpp) to use ggml format": "请将Strategy改为CPU (rwkv.cpp)以使用ggml格式"
"Please change Strategy to CPU (rwkv.cpp) to use ggml format": "请将Strategy改为CPU (rwkv.cpp)以使用ggml格式",
"Only Auto Play Generated Content": "仅自动播放新生成的内容",
"Model has been converted and does not match current strategy. If you are using a new strategy, re-convert the model.": "所选模型已被转换过并且不匹配当前的Strategy。如果你正在使用新的Strategy请重新转换模型"
}

14
frontend/src/components/RunButton.tsx
View File

@@ -19,6 +19,7 @@ import { useNavigate } from 'react-router';
import { WindowShow } from '../../wailsjs/runtime';
import { convertToGGML, convertToSt } from '../utils/convert-model';
import { Precision } from '../types/configs';
import { defaultCompositionABCPrompt, defaultCompositionPrompt } from '../pages/defaultConfigs';
const mainButtonText = {
[ModelStatus.Offline]: 'Run',
@@ -257,6 +258,7 @@ export const RunButton: FC<{ onClickRun?: MouseEventHandler, iconMode?: boolean
commonStore.setStatus({ status: ModelStatus.Working });
let buttonNameMap = {
'novel': 'Completion',
'abc': 'Composition',
'midi': 'Composition'
};
let buttonName = 'Chat';
@@ -264,6 +266,13 @@ export const RunButton: FC<{ onClickRun?: MouseEventHandler, iconMode?: boolean
const buttonFn = () => {
navigate({ pathname: '/' + buttonName.toLowerCase() });
};
if (modelName.toLowerCase().includes('abc') && commonStore.compositionParams.prompt === defaultCompositionPrompt) {
commonStore.setCompositionParams({
...commonStore.compositionParams,
prompt: defaultCompositionABCPrompt
});
commonStore.setCompositionSubmittedPrompt(defaultCompositionABCPrompt);
}
if (modelConfig.modelParameters.device.startsWith('CUDA') &&
modelConfig.modelParameters.storedLayers < modelConfig.modelParameters.maxStoredLayers &&
@@ -280,9 +289,10 @@ export const RunButton: FC<{ onClickRun?: MouseEventHandler, iconMode?: boolean
'not enough memory': 'Memory is not enough, try to increase the virtual memory or use a smaller model.',
'not compiled with CUDA': 'Bad PyTorch version, please reinstall PyTorch with cuda.',
'invalid header or archive is corrupted': 'The model file is corrupted, please download again.',
'no NVIDIA driver': 'Found no NVIDIA driver, please install the latest driver.',
'no NVIDIA driver': 'Found no NVIDIA driver, please install the latest driver. If you are not using an Nvidia GPU, please switch the \'Strategy\' to WebGPU or CPU in the Configs page.',
'CUDA out of memory': 'VRAM is not enough, please reduce stored layers or use a lower precision in Configs page.',
'Ninja is required to load C++ extensions': 'Failed to enable custom CUDA kernel, ninja is required to load C++ extensions. You may be using the CPU version of PyTorch, please reinstall PyTorch with CUDA. Or if you are using a custom Python interpreter, you must compile the CUDA kernel by yourself or disable Custom CUDA kernel acceleration.'
'Ninja is required to load C++ extensions': 'Failed to enable custom CUDA kernel, ninja is required to load C++ extensions. You may be using the CPU version of PyTorch, please reinstall PyTorch with CUDA. Or if you are using a custom Python interpreter, you must compile the CUDA kernel by yourself or disable Custom CUDA kernel acceleration.',
're-convert the model': 'Model has been converted and does not match current strategy. If you are using a new strategy, re-convert the model.'
};
const matchedError = Object.entries(errorsMap).find(([key, _]) => error.includes(key));
const message = matchedError ? t(matchedError[1]) : error;

71
frontend/src/pages/Composition.tsx
View File

@@ -15,12 +15,13 @@ import { ArrowSync20Regular, Save28Regular } from '@fluentui/react-icons';
import { PlayerElement, VisualizerElement } from 'html-midi-player';
import * as mm from '@magenta/music/esm/core.js';
import { NoteSequence } from '@magenta/music/esm/protobuf.js';
import { defaultCompositionPrompt } from './defaultConfigs';
import { defaultCompositionABCPrompt, defaultCompositionPrompt } from './defaultConfigs';
import {
CloseMidiPort,
FileExists,
OpenFileFolder,
OpenMidiPort,
OpenSaveFileDialog,
OpenSaveFileDialogBytes,
SaveFile,
StartFile
@@ -36,7 +37,9 @@ const CompositionPanel: FC = observer(() => {
const { t } = useTranslation();
const mq = useMediaQuery('(min-width: 640px)');
const inputRef = useRef<HTMLTextAreaElement>(null);
const port = commonStore.getCurrentModelConfig().apiParameters.apiPort;
const modelConfig = commonStore.getCurrentModelConfig();
const port = modelConfig.apiParameters.apiPort;
const isABC = modelConfig.modelParameters.modelName.toLowerCase().includes('abc');
const visualizerRef = useRef<VisualizerElement>(null);
const playerRef = useRef<PlayerElement>(null);
@@ -133,6 +136,13 @@ const CompositionPanel: FC = observer(() => {
}, [commonStore.midiPorts]);
const generateNs = (autoPlay: boolean) => {
if (commonStore.getCurrentModelConfig().modelParameters.modelName.toLowerCase().includes('abc')) {
import('abcjs').then(ABCJS => {
ABCJS.renderAbc('abc-paper', commonStore.compositionParams.prompt, { responsive: 'resize' });
});
return;
}
fetch(getServerRoot(port) + '/text-to-midi', {
method: 'POST',
headers: {
@@ -152,10 +162,14 @@ const CompositionPanel: FC = observer(() => {
if (autoPlay) {
if (commonStore.compositionParams.externalPlay)
externalPlayListener();
else
else {
if (commonStore.compositionParams.playOnlyGeneratedContent && playerRef.current) {
playerRef.current.currentTime = Math.max(commonStore.compositionParams.generationStartTime - 1, 0);
}
setTimeout(() => {
playerRef.current?.start();
});
}
}
});
});
@@ -314,6 +328,14 @@ const CompositionPanel: FC = observer(() => {
autoPlay: data.checked as boolean
});
}} />
<Checkbox className="select-none"
size="large" label={t('Only Auto Play Generated Content')} checked={params.playOnlyGeneratedContent}
onChange={async (_, data) => {
setParams({
autoPlay: data.checked as boolean || commonStore.compositionParams.autoPlay,
playOnlyGeneratedContent: data.checked as boolean
});
}} />
<Labeled flex breakline label={t('MIDI Input')}
desc={t('Select the MIDI input device to be used.')}
content={
@@ -358,8 +380,13 @@ const CompositionPanel: FC = observer(() => {
<DialogButton className="grow" text={t('Reset')} title={t('Reset')}
contentText={t('Are you sure you want to reset this page? It cannot be undone.')}
onConfirm={() => {
commonStore.setCompositionSubmittedPrompt(defaultCompositionPrompt);
setPrompt(defaultCompositionPrompt);
const isABC = commonStore.getCurrentModelConfig().modelParameters.modelName.toLowerCase().includes('abc');
const defaultPrompt = isABC ? defaultCompositionABCPrompt : defaultCompositionPrompt;
commonStore.setCompositionSubmittedPrompt(defaultPrompt);
setParams({
generationStartTime: 0
});
setPrompt(defaultPrompt);
}} />
<Button className="grow" appearance="primary" onClick={() => {
if (commonStore.compositionGenerating) {
@@ -368,6 +395,9 @@ const CompositionPanel: FC = observer(() => {
generateNs(params.autoPlay);
} else {
commonStore.setCompositionGenerating(true);
setParams({
generationStartTime: playerRef.current ? playerRef.current.duration : 0
});
onSubmit(params.prompt);
}
}}>{!commonStore.compositionGenerating ? t('Generate') : t('Stop')}</Button>
@@ -376,18 +406,33 @@ const CompositionPanel: FC = observer(() => {
</div>
<div className="flex flex-col">
<div className="ml-auto mr-auto">
<midi-visualizer
ref={visualizerRef}
type="waterfall"
/>
{isABC ? <div /> :
<midi-visualizer
ref={visualizerRef}
type="waterfall"
/>}
</div>
<div className="flex">
<midi-player
ref={playerRef}
style={{ width: '100%' }}
/>
{isABC ? <div className="flex flex-col overflow-y-auto grow m-1" style={{ maxHeight: '260px' }}>
<div id="abc-paper" />
</div> :
<midi-player
ref={playerRef}
style={{ width: '100%' }}
/>}
<Button icon={<Save28Regular />} size={mq ? 'large' : 'medium'} appearance={mq ? 'secondary' : 'subtle'}
onClick={() => {
if (isABC) {
OpenSaveFileDialog('*.txt', 'abc-music.txt', commonStore.compositionParams.prompt).then((path) => {
if (path)
toastWithButton(t('File Saved'), t('Open'), () => {
OpenFileFolder(path, false);
});
}).catch((e) => {
toast(t('Error') + ' - ' + (e.message || e), { type: 'error', autoClose: 2500 });
});
return;
}
if (params.midi) {
OpenSaveFileDialogBytes('*.mid', 'music.mid', Array.from(new Uint8Array(params.midi))).then((path) => {
if (path)

15
frontend/src/pages/Configs.tsx
View File

@@ -228,9 +228,18 @@ const Configs: FC = observer(() => {
<Select style={{ minWidth: 0 }} className="grow"
value={selectedConfig.modelParameters.modelName}
onChange={(e, data) => {
setSelectedConfigModelParams({
modelName: data.value
});
const modelSource = commonStore.modelSourceList.find(item => item.name === data.value);
if (modelSource?.customTokenizer)
setSelectedConfigModelParams({
modelName: data.value,
useCustomTokenizer: true,
customTokenizer: modelSource?.customTokenizer
});
else // prevent customTokenizer from being overwritten
setSelectedConfigModelParams({
modelName: data.value,
useCustomTokenizer: false
});
}}>
{!commonStore.modelSourceList.find(item => item.name === selectedConfig.modelParameters.modelName)?.isComplete
&& <option key={-1}

29
frontend/src/pages/Models.tsx
View File

@@ -153,23 +153,32 @@ const columns: TableColumnDefinition<ModelSourceItem>[] = [
})
];
const getTags = () => {
return Array.from(new Set(
['Recommended',
...commonStore.modelSourceList.map(item => item.tags || []).flat()
.filter(i => !i.includes('Other') && !i.includes('Local'))
, 'Other', 'Local']));
};
const getCurrentModelList = () => {
if (commonStore.activeModelListTags.length === 0)
return commonStore.modelSourceList;
else
return commonStore.modelSourceList.filter(item => commonStore.activeModelListTags.some(tag => item.tags?.includes(tag)));
};
const Models: FC = observer(() => {
const { t } = useTranslation();
const [tags, setTags] = useState<Array<string>>([]);
const [modelSourceList, setModelSourceList] = useState<ModelSourceItem[]>(commonStore.modelSourceList);
const [tags, setTags] = useState<Array<string>>(getTags());
const [modelSourceList, setModelSourceList] = useState<ModelSourceItem[]>(getCurrentModelList());
useEffect(() => {
setTags(Array.from(new Set(
[...commonStore.modelSourceList.map(item => item.tags || []).flat()
.filter(i => !i.includes('Other') && !i.includes('Local'))
, 'Other', 'Local'])));
setTags(getTags());
}, [commonStore.modelSourceList]);
useEffect(() => {
if (commonStore.activeModelListTags.length === 0)
setModelSourceList(commonStore.modelSourceList);
else
setModelSourceList(commonStore.modelSourceList.filter(item => commonStore.activeModelListTags.some(tag => item.tags?.includes(tag))));
setModelSourceList(getCurrentModelList());
}, [commonStore.modelSourceList, commonStore.activeModelListTags]);
return (

3
frontend/src/pages/Train.tsx
View File

@@ -131,7 +131,7 @@ const showError = (e: any) => {
};
const errorsMap = Object.entries({
'python3 ./finetune/lora/train.py': 'Memory is not enough, try to increase the virtual memory (Swap of WSL) or use a smaller base model.',
'python3 ./finetune/lora/$modelInfo': 'Memory is not enough, try to increase the virtual memory (Swap of WSL) or use a smaller base model.',
'cuda out of memory': 'VRAM is not enough',
'valueerror: high <= 0': 'Training data is not enough, reduce context length or add more data for training',
'+= \'+ptx\'': 'Can not find an Nvidia GPU. Perhaps the gpu driver of windows is too old, or you are using WSL 1 for training, please upgrade to WSL 2. e.g. Run "wsl --set-version Ubuntu-22.04 2"',
@@ -299,7 +299,6 @@ const LoraFinetune: FC = observer(() => {
(loraParams.baseModel ? `--load_model models/${loraParams.baseModel} ` : '') +
(loraParams.loraLoad ? `--lora_load lora-models/${loraParams.loraLoad} ` : '') +
`--data_file ${convertedDataPath} ` +
`--vocab_size ${loraParams.baseModel.toLowerCase().includes('world') ? '65536' : '50277'} ` +
`--ctx_len ${ctxLen} --epoch_steps ${loraParams.epochSteps} --epoch_count ${loraParams.epochCount} ` +
`--epoch_begin ${loraParams.epochBegin} --epoch_save ${loraParams.epochSave} ` +
`--micro_bsz ${loraParams.microBsz} --accumulate_grad_batches ${loraParams.accumGradBatches} ` +

19
frontend/src/pages/defaultConfigs.ts
View File

@@ -2,16 +2,27 @@ import { CompletionPreset } from '../types/completion';
import { ModelConfig } from '../types/configs';
export const defaultCompositionPrompt = '<pad>';
export const defaultCompositionABCPrompt='S:3\n' +
'B:9\n' +
'E:4\n' +
'B:9\n' +
'E:4\n' +
'E:4\n' +
'B:9\n' +
'L:1/8\n' +
'M:3/4\n' +
'K:D\n' +
' Bc |"G" d2 cB"A" A2 FE |"Bm" F2 B4 F^G |'
export const defaultPresets: CompletionPreset[] = [{
name: 'Writer',
prompt: 'The following is an epic science fiction masterpiece that is immortalized, with delicate descriptions and grand depictions of interstellar civilization wars.\nChapter 1.\n',
params: {
maxResponseToken: 500,
temperature: 1.2,
topP: 0.5,
presencePenalty: 0.4,
frequencyPenalty: 0.4,
temperature: 1,
topP: 0.3,
presencePenalty: 0,
frequencyPenalty: 1,
stop: '\\n\\nUser',
injectStart: '',
injectEnd: ''

2
frontend/src/startup.ts
View File

@@ -49,7 +49,7 @@ export async function startup() {
async function initRemoteText() {
await fetch('https://cdn.jsdelivr.net/gh/josstorer/RWKV-Runner@master/manifest.json', { cache: 'no-cache' })
.then(r => r.json()).then((data) => {
if (data.version > manifest.version) {
if (data.version >= manifest.version) {
if (data.introduction)
commonStore.setIntroduction(data.introduction);
if (data.about)

4
frontend/src/stores/commonStore.ts
View File

@@ -96,7 +96,9 @@ class CommonStore {
useLocalSoundFont: false,
externalPlay: false,
midi: null,
ns: null
ns: null,
generationStartTime: 0,
playOnlyGeneratedContent: true
};
compositionGenerating: boolean = false;
compositionSubmittedPrompt: string = defaultCompositionPrompt;

4
frontend/src/types/composition.ts
View File

@@ -11,7 +11,9 @@ export type CompositionParams = {
useLocalSoundFont: boolean,
externalPlay: boolean,
midi: ArrayBuffer | null,
ns: NoteSequence | null
ns: NoteSequence | null,
generationStartTime: number,
playOnlyGeneratedContent: boolean,
}
export type Track = {
id: string;

12
frontend/src/types/models.ts
View File

@@ -1,15 +1,17 @@
export type ModelSourceItem = {
name: string;
size: number;
lastUpdated: string;
desc?: { [lang: string]: string | undefined; };
size: number;
SHA256?: string;
lastUpdated: string;
url?: string;
downloadUrl?: string;
tags?: string[];
customTokenizer?: string;
hide?: boolean;
lastUpdatedMs?: number;
isComplete?: boolean;
isLocal?: boolean;
localSize?: number;
lastUpdatedMs?: number;
tags?: string[];
hide?: boolean;
};

17
frontend/src/utils/index.tsx
View File

@@ -27,6 +27,7 @@ import logo from '../assets/images/logo.png';
import { Preset } from '../types/presets';
import { botName, Conversation, MessageType, userName } from '../types/chat';
import { v4 as uuid } from 'uuid';
import { findLastIndex } from 'lodash-es';
export type Cache = {
version: string
@@ -90,7 +91,7 @@ export async function refreshLocalModels(cache: {
for (let i = 0; i < cache.models.length; i++) {
if (!cache.models[i].lastUpdatedMs)
cache.models[i].lastUpdatedMs = Date.parse(cache.models[i].lastUpdated);
if (!cache.models[i].tags)
if (!cache.models[i].tags || !Array.isArray(cache.models[i].tags) || cache.models[i].tags?.length === 0)
cache.models[i].tags = ['Other'];
for (let j = i + 1; j < cache.models.length; j++) {
@@ -145,7 +146,7 @@ function initLastUnfinishedModelDownloads() {
export async function refreshRemoteModels(cache: {
models: ModelSourceItem[]
}) {
}, filter: boolean = true, initUnfinishedModels: boolean = false) {
const manifestUrls = commonStore.modelSourceManifestList.split(/[,;\n]/);
const requests = manifestUrls.filter(url => url.endsWith('.json')).map(
url => fetch(url, { cache: 'no-cache' }).then(r => r.json()));
@@ -162,18 +163,16 @@ export async function refreshRemoteModels(cache: {
});
cache.models = cache.models.filter((model, index, self) => {
return modelSuffix.some((ext => model.name.endsWith(ext)))
&& index === self.findIndex(
m => m.name === model.name || (m.SHA256 && m.SHA256 === model.SHA256 && m.size === model.size));
});
commonStore.setModelSourceList(cache.models);
await saveCache().catch(() => {
&& index === findLastIndex(self,
m => m.name === model.name || (!!m.SHA256 && m.SHA256 === model.SHA256 && m.size === model.size));
});
await refreshLocalModels(cache, filter, initUnfinishedModels);
}
export const refreshModels = async (readCache: boolean = false, initUnfinishedModels: boolean = false) => {
const cache = await refreshBuiltInModels(readCache);
await refreshLocalModels(cache, false, initUnfinishedModels);
await refreshRemoteModels(cache);
await refreshRemoteModels(cache, false, initUnfinishedModels);
};
export const getStrategy = (modelConfig: ModelConfig | undefined = undefined) => {
@@ -203,6 +202,8 @@ export const getStrategy = (modelConfig: ModelConfig | undefined = undefined) =>
strategy += params.precision === 'int8' ? 'fp16i8' : params.precision === 'fp32' ? 'fp32' : 'fp16';
if (params.storedLayers < params.maxStoredLayers)
strategy += ` *${params.storedLayers}+`;
else
strategy += ` -> cuda fp16 *1`;
break;
case 'MPS':
if (avoidOverflow)

2
frontend/vite.config.ts
View File

@@ -12,7 +12,7 @@ const vendor = [
'mobx', 'mobx-react-lite',
'i18next', 'react-i18next',
'usehooks-ts', 'react-toastify',
'classnames'
'classnames', 'lodash-es'
];
const embedded = [

0
frontend/wailsjs/go/backend_golang/App.d.ts generated vendored Executable file → Normal file
View File

0
frontend/wailsjs/go/backend_golang/App.js generated Executable file → Normal file
View File

0
frontend/wailsjs/go/models.ts generated Executable file → Normal file
View File

278
manifest.json
View File

@@ -1,12 +1,12 @@
{
"version": "1.6.3",
"version": "1.6.7",
"introduction": {
"en": "RWKV is an open-source, commercially usable large language model with high flexibility and great potential for development.\n### About This Tool\nThis tool aims to lower the barrier of entry for using large language models, making it accessible to everyone. It provides fully automated dependency and model management. You simply need to click and run, following the instructions, to deploy a local large language model. The tool itself is very compact and only requires a single executable file for one-click deployment.\nAdditionally, this tool offers an interface that is fully compatible with the OpenAI API. This means you can use any ChatGPT client as a client for RWKV, enabling capability expansion beyond just chat functionality.\n### Preset Configuration Rules at the Bottom\nThis tool comes with a series of preset configurations to reduce complexity. The naming rules for each configuration represent the following in order: device - required VRAM/memory - model size - model language.\nFor example, \"GPU-8G-3B-EN\" indicates that this configuration is for a graphics card with 8GB of VRAM, a model size of 3 billion parameters, and it uses an English language model.\nLarger model sizes have higher performance and VRAM requirements. Among configurations with the same model size, those with higher VRAM usage will have faster runtime.\nFor example, if you have 12GB of VRAM but running the \"GPU-12G-7B-EN\" configuration is slow, you can downgrade to \"GPU-8G-3B-EN\" for a significant speed improvement.\n### About RWKV\nRWKV is an RNN with Transformer-level LLM performance, which can also be directly trained like a GPT transformer (parallelizable). And it's 100% attention-free. You only need the hidden state at position t to compute the state at position t+1. You can use the \"GPT\" mode to quickly compute the hidden state for the \"RNN\" mode.<br/>So it's combining the best of RNN and transformer - great performance, fast inference, saves VRAM, fast training, \"infinite\" ctx_len, and free sentence embedding (using the final hidden state).",
"zh": "RWKV是一个开源且允许商用的大语言模型灵活性很高且极具发展潜力。\n### 关于本工具\n本工具旨在降低大语言模型的使用门槛做到人人可用本工具提供了全自动化的依赖和模型管理你只需要直接点击运行跟随引导即可完成本地大语言模型的部署工具本身体积极小只需要一个exe即可完成一键部署。\n此外本工具提供了与OpenAI API完全兼容的接口这意味着你可以把任意ChatGPT客户端用作RWKV的客户端实现能力拓展而不局限于聊天。\n### 底部的预设配置规则\n本工具内置了一系列预设配置以降低使用难度每个配置名的规则依次代表着设备-所需显存/内存-模型规模-模型语言。\n例如GPU-8G-3B-CN表示该配置用于显卡需要8G显存模型规模为30亿参数使用的是中文模型。\n模型规模越大性能要求越高显存要求也越高而同样模型规模的配置中显存占用越高的运行速度越快。\n例如当你有12G显存但运行GPU-12G-7B-CN配置速度比较慢可降级成GPU-8G-3B-CN将会大幅提速。\n### 关于RWKV\nRWKV是具有Transformer级别LLM性能的RNN也可以像GPT Transformer一样直接进行训练可并行化。而且它是100% attention-free的。你只需在位置t处获得隐藏状态即可计算位置t + 1处的状态。你可以使用“GPT”模式快速计算用于“RNN”模式的隐藏状态。\n因此它将RNN和Transformer的优点结合起来 - 高性能、快速推理、节省显存、快速训练、“无限”上下文长度以及免费的语句嵌入(使用最终隐藏状态)。"
},
"about": {
"en": "<div align=\"center\">\n\nProject Source Code:\nhttps://github.com/josStorer/RWKV-Runner\nAuthor: [@josStorer](https://github.com/josStorer)\nFAQs: https://github.com/josStorer/RWKV-Runner/wiki/FAQs\n\nRelated Repositories:\nRWKV-4-World: https://huggingface.co/BlinkDL/rwkv-4-world/tree/main\nRWKV-4-Raven: https://huggingface.co/BlinkDL/rwkv-4-raven/tree/main\nChatRWKV: https://github.com/BlinkDL/ChatRWKV\nRWKV-LM: https://github.com/BlinkDL/RWKV-LM\nRWKV-LM-LoRA: https://github.com/Blealtan/RWKV-LM-LoRA\nMIDI-LLM-tokenizer: https://github.com/briansemrau/MIDI-LLM-tokenizer\n\n</div>",
"zh": "<div align=\"center\">\n\n本项目源码:\nhttps://github.com/josStorer/RWKV-Runner\n作者: [@josStorer](https://github.com/josStorer)\n演示与常见问题说明视频: https://www.bilibili.com/video/BV1hM4y1v76R\n疑难解答: https://www.bilibili.com/read/cv23921171\n\n相关仓库:\nRWKV-4-World: https://huggingface.co/BlinkDL/rwkv-4-world/tree/main\nRWKV-4-Raven: https://huggingface.co/BlinkDL/rwkv-4-raven/tree/main\nChatRWKV: https://github.com/BlinkDL/ChatRWKV\nRWKV-LM: https://github.com/BlinkDL/RWKV-LM\nRWKV-LM-LoRA: https://github.com/Blealtan/RWKV-LM-LoRA\nMIDI-LLM-tokenizer: https://github.com/briansemrau/MIDI-LLM-tokenizer\n\n</div>"
"en": "<div align=\"center\">\n\nProject Source Code and Introduction:\nhttps://github.com/josStorer/RWKV-Runner\nAuthor: [@josStorer](https://github.com/josStorer)\n\nRelated Repositories:\nRWKV-5-World: https://huggingface.co/BlinkDL/rwkv-5-world/tree/main\nRWKV-4-World: https://huggingface.co/BlinkDL/rwkv-4-world/tree/main\nRWKV-4-Raven: https://huggingface.co/BlinkDL/rwkv-4-raven/tree/main\nChatRWKV: https://github.com/BlinkDL/ChatRWKV\nRWKV-LM: https://github.com/BlinkDL/RWKV-LM\nRWKV-LM-LoRA: https://github.com/Blealtan/RWKV-LM-LoRA\nMIDI-LLM-tokenizer: https://github.com/briansemrau/MIDI-LLM-tokenizer\nai00_rwkv_server: https://github.com/cgisky1980/ai00_rwkv_server\nrwkv.cpp: https://github.com/saharNooby/rwkv.cpp\nweb-rwkv-py: https://github.com/cryscan/web-rwkv-py\n\n</div>",
"zh": "<div align=\"center\">\n\n本项目源码及介绍页:\nhttps://github.com/josStorer/RWKV-Runner\n作者: [@josStorer](https://github.com/josStorer)\n演示与常见问题说明视频: https://www.bilibili.com/video/BV1hM4y1v76R\n\n相关仓库:\nRWKV-5-World: https://huggingface.co/BlinkDL/rwkv-5-world/tree/main\nRWKV-4-World: https://huggingface.co/BlinkDL/rwkv-4-world/tree/main\nRWKV-4-Raven: https://huggingface.co/BlinkDL/rwkv-4-raven/tree/main\nChatRWKV: https://github.com/BlinkDL/ChatRWKV\nRWKV-LM: https://github.com/BlinkDL/RWKV-LM\nRWKV-LM-LoRA: https://github.com/Blealtan/RWKV-LM-LoRA\nMIDI-LLM-tokenizer: https://github.com/briansemrau/MIDI-LLM-tokenizer\nai00_rwkv_server: https://github.com/cgisky1980/ai00_rwkv_server\nrwkv.cpp: https://github.com/saharNooby/rwkv.cpp\nweb-rwkv-py: https://github.com/cryscan/web-rwkv-py\n\n</div>"
},
"programFiles": [
{
@@ -25,8 +25,8 @@
"size": 385598386,
"SHA256": "c844a3ee05bcb9065848cb05b10c48a3f381f5ac1953aad89e156ecdf31d7703",
"lastUpdated": "2023-08-03T15:18:46",
"url": "https://huggingface.co/BlinkDL/rwkv-5-world/blob/main/RWKV-5-World-0.1B-v1-20230803-ctx4096.pth?download=true",
"downloadUrl": "https://huggingface.co/BlinkDL/rwkv-5-world/resolve/main/RWKV-5-World-0.1B-v1-20230803-ctx4096.pth?download=true",
"url": "https://huggingface.co/BlinkDL/rwkv-5-world/blob/main/RWKV-5-World-0.1B-v1-20230803-ctx4096.pth",
"downloadUrl": "https://huggingface.co/BlinkDL/rwkv-5-world/resolve/main/RWKV-5-World-0.1B-v1-20230803-ctx4096.pth",
"tags": [
"Main",
"RWKV-5",
@@ -43,8 +43,8 @@
"size": 923523954,
"SHA256": "5a288c54c7f30b0e2d4af23991133fad2af2d5e59ec7ad850ffe78054a5e4f92",
"lastUpdated": "2023-11-14T01:23:49",
"url": "https://huggingface.co/BlinkDL/rwkv-5-world/blob/main/RWKV-5-World-0.4B-v2-20231113-ctx4096.pth?download=true",
"downloadUrl": "https://huggingface.co/BlinkDL/rwkv-5-world/resolve/main/RWKV-5-World-0.4B-v2-20231113-ctx4096.pth?download=true",
"url": "https://huggingface.co/BlinkDL/rwkv-5-world/blob/main/RWKV-5-World-0.4B-v2-20231113-ctx4096.pth",
"downloadUrl": "https://huggingface.co/BlinkDL/rwkv-5-world/resolve/main/RWKV-5-World-0.4B-v2-20231113-ctx4096.pth",
"tags": [
"Main",
"RWKV-5",
@@ -69,6 +69,45 @@
"Global"
]
},
{
"name": "RWKV-5-1B5-one-state-slim.pth",
"desc": {
"en": "RWKV-5 Global Languages 1.5B v2 Ctx16k Role Play",
"zh": "RWKV-5 全球语言 1.5B v2 16k上下文 角色扮演",
"ja": "RWKV-5 グローバル言語 1.5B v2 16kコンテキスト ロールプレイ"
},
"size": 3155589871,
"SHA256": "43e7b922d7ad49eafa17f8909c2813c91394925bc7f24caf0e19a91aa3281273",
"lastUpdated": "2023-11-02T04:03:27",
"url": "https://huggingface.co/xiaol/RWKV-v5-world-v2-1.5B-one-state-slim-16k/blob/main/RWKV-5-1B5-one-state-slim.pth",
"downloadUrl": "https://huggingface.co/xiaol/RWKV-v5-world-v2-1.5B-one-state-slim-16k/resolve/main/RWKV-5-1B5-one-state-slim.pth",
"tags": [
"Finetuned",
"RWKV-5",
"Global",
"Role Play"
],
"customTokenizer": "backend-python/rwkv_pip/rwkv_vocab_v20230424_special_token.txt"
},
{
"name": "RWKV-5-1B5-one-state-slim-novel-tuned.pth",
"desc": {
"en": "RWKV-5 Global Languages 1.5B v2 Ctx16k Novel",
"zh": "RWKV-5 全球语言 1.5B v2 16k上下文 小说",
"ja": "RWKV-5 グローバル言語 1.5B v2 16kコンテキスト 小説"
},
"size": 3155589871,
"SHA256": "4f0aaecdce676e5236018ebd63e3d37c2f300fbac04001ee3a9c00d2f4244d0f",
"lastUpdated": "2023-11-03T02:45:52",
"url": "https://huggingface.co/xiaol/RWKV-v5-world-v2-1.5B-one-state-slim-16k-novel-tuned/blob/main/RWKV-5-1B5-one-state-slim-novel-tuned.pth",
"downloadUrl": "https://huggingface.co/xiaol/RWKV-v5-world-v2-1.5B-one-state-slim-16k-novel-tuned/resolve/main/RWKV-5-1B5-one-state-slim-novel-tuned.pth",
"tags": [
"Finetuned",
"RWKV-5",
"Global"
],
"customTokenizer": "backend-python/rwkv_pip/rwkv_vocab_v20230424_special_token.txt"
},
{
"name": "RWKV-5-World-3B-v2-20231113-ctx4096.pth",
"desc": {
@@ -79,12 +118,13 @@
"size": 6126106674,
"SHA256": "a4bd430343c6fd138b85bbc68bb20262d3a2f053ea57dc4b41078269af68ff9c",
"lastUpdated": "2023-11-14T01:23:49",
"url": "https://huggingface.co/BlinkDL/rwkv-5-world/blob/main/RWKV-5-World-3B-v2-20231113-ctx4096.pth?download=true",
"downloadUrl": "https://huggingface.co/BlinkDL/rwkv-5-world/resolve/main/RWKV-5-World-3B-v2-20231113-ctx4096.pth?download=true",
"url": "https://huggingface.co/BlinkDL/rwkv-5-world/blob/main/RWKV-5-World-3B-v2-20231113-ctx4096.pth",
"downloadUrl": "https://huggingface.co/BlinkDL/rwkv-5-world/resolve/main/RWKV-5-World-3B-v2-20231113-ctx4096.pth",
"tags": [
"Main",
"RWKV-5",
"Global"
"Global",
"Recommended"
]
},
{
@@ -97,14 +137,94 @@
"size": 6126106467,
"SHA256": "efa5178d1c824b94ef17c6c9a456674e5581a8be832becbda9aba4dc533f88c2",
"lastUpdated": "2023-11-19T04:21:04",
"url": "https://huggingface.co/BlinkDL/rwkv-5-world/blob/main/RWKV-5-World-3B-v2-20231118-ctx16k.pth?download=true",
"downloadUrl": "https://huggingface.co/BlinkDL/rwkv-5-world/resolve/main/RWKV-5-World-3B-v2-20231118-ctx16k.pth?download=true",
"url": "https://huggingface.co/BlinkDL/rwkv-5-world/blob/main/RWKV-5-World-3B-v2-20231118-ctx16k.pth",
"downloadUrl": "https://huggingface.co/BlinkDL/rwkv-5-world/resolve/main/RWKV-5-World-3B-v2-20231118-ctx16k.pth",
"tags": [
"Main",
"RWKV-5",
"Global"
"Global",
"Recommended"
]
},
{
"name": "rwkv-v5-7B-0.4-long-ctx-16k.pth",
"desc": {
"en": "RWKV-5 Global Languages 7B v2 40% Ctx300k Document Reader",
"zh": "RWKV-5 全球语言 7B v2 40% 300k上下文 文档阅读",
"ja": "RWKV-5 グローバル言語 7B v2 40% 300kコンテキスト ドキュメントリーダー"
},
"size": 15036198115,
"SHA256": "5888471a45caab903c1bd9c35af1c639ac8d03be6ee6eb39fa9fd3194fa6d437",
"lastUpdated": "2023-11-10T17:12:04",
"url": "https://huggingface.co/xiaol/RWKV-5-world-v2-7B-0.4-300k/blob/main/rwkv-v5-7B-0.4-long-ctx-16k.pth",
"downloadUrl": "https://huggingface.co/xiaol/RWKV-5-world-v2-7B-0.4-300k/resolve/main/rwkv-v5-7B-0.4-long-ctx-16k.pth",
"tags": [
"Finetuned",
"RWKV-5",
"Global"
],
"customTokenizer": "backend-python/rwkv_pip/rwkv_vocab_v20230424_special_token.txt"
},
{
"name": "rwkv-v5.2-7B-horror-16k.pth",
"desc": {
"en": "RWKV-5 Global Languages 7B v2 40% Ctx16k Horror",
"zh": "RWKV-5 全球语言 7B v2 40% 16k上下文 恐怖",
"ja": "RWKV-5 グローバル言語 7B v2 40% 16kコンテキスト ホラー"
},
"size": 15036198115,
"SHA256": "3b36ce99bef06627dcb5d860972e2c1515327afe7db415b8c82dd5c3b926b52f",
"lastUpdated": "2023-11-13T15:21:25",
"url": "https://huggingface.co/xiaol/RWKV-v5.2-7B-horror-16k/blob/main/rwkv-v5.2-7B-horror-16k.pth",
"downloadUrl": "https://huggingface.co/xiaol/RWKV-v5.2-7B-horror-16k/resolve/main/rwkv-v5.2-7B-horror-16k.pth",
"tags": [
"Finetuned",
"RWKV-5",
"Global"
],
"customTokenizer": "backend-python/rwkv_pip/rwkv_vocab_v20230424_special_token.txt"
},
{
"name": "rwkv_v5.2_7B_role_play_16k.pth",
"desc": {
"en": "RWKV-5 Global Languages 7B v2 Ctx16k Claude Like",
"zh": "RWKV-5 全球语言 7B v2 16k上下文 Claude功能",
"ja": "RWKV-5 グローバル言語 7B v2 16kコンテキスト Claude機能"
},
"size": 15036198115,
"SHA256": "6fe8a7bf06b9f5e5b740cd87e24bff91325518ad19bf92bf5c75799b3c24b150",
"lastUpdated": "2023-11-14T04:18:16",
"url": "https://huggingface.co/xiaol/RWKV-v5.2-7B-Role-play-16k/blob/main/rwkv_v5.2_7B_role_play_16k.pth",
"downloadUrl": "https://huggingface.co/xiaol/RWKV-v5.2-7B-Role-play-16k/resolve/main/rwkv_v5.2_7B_role_play_16k.pth",
"tags": [
"Finetuned",
"RWKV-5",
"Global",
"Role Play",
"Recommended"
],
"customTokenizer": "backend-python/rwkv_pip/rwkv_vocab_v20230424_special_token.txt"
},
{
"name": "RWKV-5-12B-one-state-chat-16k.pth",
"desc": {
"en": "RWKV-5 Global Languages 12B Ctx16k",
"zh": "RWKV-5 全球语言 12B 16k上下文",
"ja": "RWKV-5 グローバル言語 12B 16kコンテキスト"
},
"size": 23157296483,
"SHA256": "330be74738d3936f4c9bd6caf838db11c96f52ff360d0f4fa5401d9bafc898ab",
"lastUpdated": "2023-12-16T16:34:30",
"url": "https://huggingface.co/xiaol/RWKV-v5-12B-one-state-chat-16k/blob/main/RWKV-5-12B-one-state-chat-16k.pth",
"downloadUrl": "https://huggingface.co/xiaol/RWKV-v5-12B-one-state-chat-16k/resolve/main/RWKV-5-12B-one-state-chat-16k.pth",
"tags": [
"Finetuned",
"RWKV-5",
"Global",
"Recommended"
],
"customTokenizer": "backend-python/rwkv_pip/rwkv_vocab_v20230424_special_token.txt"
},
{
"name": "RWKV-4-World-CHNtuned-0.1B-v1-20230617-ctx4096.pth",
"desc": {
@@ -257,6 +377,25 @@
"Global"
]
},
{
"name": "RWKV-for-mobile-4-world-1.5B-20230906-ctx16k.pth",
"desc": {
"en": "Global Languages 1.5B v1 Ctx16k Claude Like",
"zh": "全球语言 1.5B v1 16k上下文 Claude功能",
"ja": "グローバル言語 1.5B v1 16kコンテキスト Claude機能"
},
"size": 3155280301,
"SHA256": "20547a6deca32add57c45d2f6cff52c6b59cd3b92676ee369b964affba35619d",
"lastUpdated": "2023-09-07T01:35:46",
"url": "https://huggingface.co/xiaol/RWKV-claude-for-mobile-v4-world-1.5B-16k/blob/main/RWKV-for-mobile-4-world-1.5B-20230906-ctx16k.pth",
"downloadUrl": "https://huggingface.co/xiaol/RWKV-claude-for-mobile-v4-world-1.5B-16k/resolve/main/RWKV-for-mobile-4-world-1.5B-20230906-ctx16k.pth",
"tags": [
"Finetuned",
"RWKV-4",
"Global"
],
"customTokenizer": "backend-python/rwkv_pip/rwkv_vocab_v20230424_special_token.txt"
},
{
"name": "RWKV-4-World-3B-v1-OnlyForTest_35%_trained-20230529-ctx4096.pth",
"desc": {
@@ -513,6 +652,83 @@
"Global"
]
},
{
"name": "RWKV-7B-world-one.pth",
"desc": {
"en": "Global Languages 7B v1 Ctx65k Novel",
"zh": "全球语言 7B v1 65k上下文 小说",
"ja": "グローバル言語 7B v1 65kコンテキスト 小説"
},
"size": 15035391533,
"SHA256": "7ce95a4b460c3385c75c29b6ebe3cd7db438b1107e85d7d3e42dff85cfaa0b78",
"lastUpdated": "2023-10-09T05:23:38",
"url": "https://huggingface.co/xiaol/RWKV-v4-world-7B-one-state-65k/blob/main/RWKV-7B-world-one.pth",
"downloadUrl": "https://huggingface.co/xiaol/RWKV-v4-world-7B-one-state-65k/resolve/main/RWKV-7B-world-one.pth",
"tags": [
"Finetuned",
"RWKV-4",
"Global"
],
"customTokenizer": "backend-python/rwkv_pip/rwkv_vocab_v20230424_special_token.txt"
},
{
"name": "rwkv-world-one-novel-cot-ultrachat-novel-instructions.pth",
"desc": {
"en": "Global Languages 7B v1 Ctx65k Novel Instruction",
"zh": "全球语言 7B v1 65k上下文 小说指令",
"ja": "グローバル言語 7B v1 65kコンテキスト 小説指示"
},
"size": 15035391533,
"SHA256": "fc2d4643828bb9dfe0733c3b2eb54ba2d996ed3eb6afa051b558da2eb2c1e309",
"lastUpdated": "2023-10-22T09:50:39",
"url": "https://huggingface.co/xiaol/RWKV-4-world-one-state-ultrachat-COT-65k/blob/main/rwkv-world-one-novel-cot-ultrachat-novel-instructions.pth",
"downloadUrl": "https://huggingface.co/xiaol/RWKV-4-world-one-state-ultrachat-COT-65k/resolve/main/rwkv-world-one-novel-cot-ultrachat-novel-instructions.pth",
"tags": [
"Finetuned",
"RWKV-4",
"Global"
],
"customTokenizer": "backend-python/rwkv_pip/rwkv_vocab_v20230424_special_token.txt"
},
{
"name": "RWKV-world-novel-one-state-ultrachat-cot-tuned-Role-play-65k.pth",
"desc": {
"en": "Global Languages 7B v1 Ctx65k Role Play",
"zh": "全球语言 7B v1 65k上下文 角色扮演",
"ja": "グローバル言語 7B v1 65kコンテキスト ロールプレイ"
},
"size": 15035391533,
"SHA256": "2f55b4710dcd360e83b4df9a6358661284d9a6c6108f62c5a30b86df181ed67a",
"lastUpdated": "2023-10-22T05:54:27",
"url": "https://huggingface.co/xiaol/RWKV-4-world-one-state-ultrachat-COT-65k/blob/main/RWKV-world-novel-one-state-ultrachat-cot-tuned-Role-play-65k.pth",
"downloadUrl": "https://huggingface.co/xiaol/RWKV-4-world-one-state-ultrachat-COT-65k/resolve/main/RWKV-world-novel-one-state-ultrachat-cot-tuned-Role-play-65k.pth",
"tags": [
"Finetuned",
"RWKV-4",
"Global",
"Role Play"
],
"customTokenizer": "backend-python/rwkv_pip/rwkv_vocab_v20230424_special_token.txt"
},
{
"name": "RWKV-4-7B-world-one-novel-tuned-65k.pth",
"desc": {
"en": "Global Languages 7B v1 Ctx65k Chinese Novel Instruction",
"zh": "全球语言 7B v1 65k上下文 中文小说指令",
"ja": "グローバル言語 7B v1 65kコンテキスト 中国語小説指示"
},
"size": 15035391533,
"SHA256": "e8ff256d74ca404621dcbf87c43c37e25ea745fed30c404fbf45cc5acc7ba2b5",
"lastUpdated": "2023-10-15T00:57:53",
"url": "https://huggingface.co/xiaol/RWKV-4-world-one-state-novel-tuned-65k/blob/main/RWKV-4-7B-world-one-novel-tuned-65k.pth",
"downloadUrl": "https://huggingface.co/xiaol/RWKV-4-world-one-state-novel-tuned-65k/resolve/main/RWKV-4-7B-world-one-novel-tuned-65k.pth",
"tags": [
"Finetuned",
"RWKV-4",
"CN"
],
"customTokenizer": "backend-python/rwkv_pip/rwkv_vocab_v20230424_special_token.txt"
},
{
"name": "RWKV-4-World-CHNtuned-7B-v1-20230709-ctx4096.pth",
"desc": {
@@ -998,6 +1214,24 @@
"Music"
]
},
{
"name": "RWKV-4-ABC-82M-v1-20230805-ctx1024.pth",
"desc": {
"en": "Music ABC 82M v1",
"zh": "作曲 ABC 82M v1",
"ja": "作曲 ABC 82M v1"
},
"size": 164183345,
"SHA256": "4c83859f387bc3953d19890338a3e50ea7f2278e1bbb9d6eae9b773c81958a01",
"lastUpdated": "2023-08-06T05:46:55",
"url": "https://huggingface.co/BlinkDL/rwkv-4-music/blob/main/RWKV-4-ABC-82M-v1-20230805-ctx1024.pth",
"downloadUrl": "https://huggingface.co/BlinkDL/rwkv-4-music/resolve/main/RWKV-4-ABC-82M-v1-20230805-ctx1024.pth",
"tags": [
"Main",
"RWKV-4",
"Music"
]
},
{
"name": "RWKV-5-MIDI-120M-v1-20230728-ctx4096.pth",
"desc": {
@@ -1033,6 +1267,24 @@
"RWKV-5",
"Music"
]
},
{
"name": "RWKV-5-ABC-82M-v1-20230901-ctx1024.pth",
"desc": {
"en": "RWKV-5 Music ABC 82M v1",
"zh": "RWKV-5 作曲 ABC 82M v1",
"ja": "RWKV-5 作曲 ABC 82M v1"
},
"size": 164222002,
"SHA256": "5bf9ae32e4ef05c3851d6010709c6c00dda926d110766b9a712bc48c0a53e098",
"lastUpdated": "2023-09-02T06:55:12",
"url": "https://huggingface.co/BlinkDL/rwkv-5-music/blob/main/RWKV-5-ABC-82M-v1-20230901-ctx1024.pth",
"downloadUrl": "https://huggingface.co/BlinkDL/rwkv-5-music/resolve/main/RWKV-5-ABC-82M-v1-20230901-ctx1024.pth",
"tags": [
"Main",
"RWKV-5",
"Music"
]
}
]
}