upgrade rwkv 0.8.16 (DirectML support; rwkv 5.2 no longer needs to ensure custom cuda kernel enabled)
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124
backend-python/rwkv_pip/cuda/att_one.cu
vendored
124
backend-python/rwkv_pip/cuda/att_one.cu
vendored
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#include "ATen/ATen.h"
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#include <cuda_fp16.h>
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#include <cuda_runtime.h>
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#include <torch/extension.h>
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#include "element_wise.h"
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#include "util.h"
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// Equivalent Python code:
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// ww = t_first + k
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// p = torch.maximum(pp, ww)
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// e1 = torch.exp(pp - p)
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// e2 = torch.exp(ww - p)
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// wkv = ((e1 * aa + e2 * v) / (e1 * bb + e2)).to(dtype=x.dtype)
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// ww = t_decay + pp
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// p = torch.maximum(ww, k)
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// e1 = torch.exp(ww - p)
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// e2 = torch.exp(k - p)
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// t1 = e1 * aa + e2 * v
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// t2 = e1 * bb + e2
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// r = r * wkv
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// return t1, t2, p, r
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struct WkvForwardOne {
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const float *t_first;
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const float *k;
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const float *pp;
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const float *aa;
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const float *bb;
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const float *t_decay;
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const float *v;
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/* out */ float *t1;
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/* out */ float *t2;
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/* out */ float *p;
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/* in & out */ half *r;
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__device__ void operator()(int i) const {
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float ww = t_first[i] + k[i];
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float pp_ = pp[i];
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float p_ = (pp_ > ww) ? pp_ : ww;
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float e1 = expf(pp_ - p_);
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float e2 = expf(ww - p_);
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float aa_ = aa[i];
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float bb_ = bb[i];
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float v_ = v[i];
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r[i] = __hmul(r[i], __float2half(((e1 * aa_ + e2 * v_) / (e1 * bb_ + e2))));
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ww = t_decay[i] + pp_;
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float k_ = k[i];
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p_ = (ww > k_) ? ww : k_;
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e1 = expf(ww - p_);
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e2 = expf(k_ - p_);
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t1[i] = e1 * aa_ + e2 * v_;
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t2[i] = e1 * bb_ + e2;
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p[i] = p_;
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}
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};
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/*
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Equivalent Python code:
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kx = xx * k_mix + sx * (1 - k_mix)
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vx = xx * v_mix + sx * (1 - v_mix)
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rx = xx * r_mix + sx * (1 - r_mix)
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*/
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struct Mix {
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const half *xx;
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const half *sx;
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const half *k_mix;
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const half *v_mix;
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const half *r_mix;
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/* out */ half *kx;
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/* out */ half *vx;
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/* out */ half *rx;
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__device__ void operator()(int i) const {
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half xx_ = xx[i];
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half sx_ = sx[i];
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half k_mix_ = k_mix[i];
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half v_mix_ = v_mix[i];
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half r_mix_ = r_mix[i];
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kx[i] = __hadd(__hmul(xx_, k_mix_),
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__hmul(sx_, __hsub(__float2half(1), k_mix_)));
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vx[i] = __hadd(__hmul(xx_, v_mix_),
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__hmul(sx_, __hsub(__float2half(1), v_mix_)));
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rx[i] = __hadd(__hmul(xx_, r_mix_),
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__hmul(sx_, __hsub(__float2half(1), r_mix_)));
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}
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};
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using torch::Tensor;
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void gemm_fp16_cublas(Tensor a, Tensor b, Tensor c);
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Tensor att_one(Tensor x, Tensor ln_w, Tensor ln_b, Tensor sx, Tensor k_mix,
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Tensor v_mix, Tensor r_mix, Tensor kw,
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/* imm */ Tensor kx, Tensor vw, /* imm */ Tensor vx, Tensor rw,
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/* imm */ Tensor rx, Tensor ow, Tensor t_first,
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/* imm */ Tensor k, Tensor pp, Tensor ww, Tensor aa, Tensor bb,
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Tensor t_decay, /* imm */ Tensor v, /* in & out */ Tensor r,
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/* out */ Tensor x_plus_out, /* out */ Tensor t1,
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/* out */ Tensor t2, /* out */ Tensor p) {
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Tensor xx = at::layer_norm(x, {x.size(-1)}, ln_w, ln_b);
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element_wise(Mix{data_ptr<half>(xx), data_ptr<half>(sx),
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data_ptr<half>(k_mix), data_ptr<half>(v_mix),
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data_ptr<half>(r_mix), data_ptr<half>(kx),
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data_ptr<half>(vx), data_ptr<half>(rx)},
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x.numel());
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gemm_fp16_cublas(kx, kw, k);
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gemm_fp16_cublas(vx, vw, v);
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gemm_fp16_cublas(rx, rw, r);
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at::sigmoid_(r);
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element_wise(WkvForwardOne{data_ptr<float>(t_first), data_ptr<float>(k),
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data_ptr<float>(pp), data_ptr<float>(aa),
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data_ptr<float>(bb), data_ptr<float>(t_decay),
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data_ptr<float>(v), data_ptr<float>(t1),
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data_ptr<float>(t2), data_ptr<float>(p),
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data_ptr<half>(r)},
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x.numel());
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gemm_fp16_cublas(r, ow, x_plus_out);
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x_plus_out += x;
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return xx;
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}
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179
backend-python/rwkv_pip/cuda/att_seq.cu
vendored
179
backend-python/rwkv_pip/cuda/att_seq.cu
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@ -1,179 +0,0 @@
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#include "ATen/ATen.h"
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#include <cuda_fp16.h>
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#include <cuda_runtime.h>
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#include <torch/extension.h>
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#include "util.h"
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#include "element_wise.h"
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using torch::Tensor;
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void gemm_fp16_cublas(Tensor a, Tensor b, Tensor c);
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void gemm_fp16_cublas(const void *a, const void *b, void *c, int m,
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int n, int k, bool output_fp32);
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// based on `kernel_wkv_forward`, fusing more operations
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__global__ void kernel_wkv_forward_new(
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const int B, const int T, const int C, const float *__restrict__ const _w,
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const float *__restrict__ const _u, const float *__restrict__ const _k,
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const float *__restrict__ const _v, const half *__restrict__ const r,
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half *__restrict__ const _y, float *__restrict__ const _aa,
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float *__restrict__ const _bb, float *__restrict__ const _pp) {
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const int idx = blockIdx.x * blockDim.x + threadIdx.x;
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const int _b = idx / C;
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const int _c = idx % C;
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const int _offset = _b * T * C + _c;
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const int _state_offset = _b * C + _c;
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float u = _u[_c];
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float w = _w[_c];
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const float *__restrict__ const k = _k + _offset;
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const float *__restrict__ const v = _v + _offset;
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half *__restrict__ const y = _y + _offset;
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float aa = _aa[_state_offset];
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float bb = _bb[_state_offset];
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float pp = _pp[_state_offset];
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for (int i = 0; i < T; i++) {
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const int ii = i * C;
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const float kk = k[ii];
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const float vv = v[ii];
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float ww = u + kk;
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float p = max(pp, ww);
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float e1 = exp(pp - p);
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float e2 = exp(ww - p);
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y[ii] = __float2half((e1 * aa + e2 * vv) / (e1 * bb + e2));
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ww = w + pp;
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p = max(ww, kk);
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e1 = exp(ww - p);
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e2 = exp(kk - p);
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aa = e1 * aa + e2 * vv;
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bb = e1 * bb + e2;
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pp = p;
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}
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_aa[_state_offset] = aa;
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_bb[_state_offset] = bb;
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_pp[_state_offset] = pp;
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}
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void cuda_wkv_forward_new(int B, int T, int C, float *w, float *u, float *k,
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float *v, half *r, half *y, float *aa, float *bb,
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float *pp) {
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dim3 threadsPerBlock(min(C, 32));
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assert(B * C % threadsPerBlock.x == 0);
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dim3 numBlocks(B * C / threadsPerBlock.x);
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kernel_wkv_forward_new<<<numBlocks, threadsPerBlock>>>(B, T, C, w, u, k, v, r,
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y, aa, bb, pp);
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}
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__global__ void _att_mix(const half *xx, const half *sx, const half *k_mix,
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const half *v_mix, const half *r_mix,
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const int outer_size, const int inner_size, half *kx,
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half *vx, half *rx) {
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for (int idx2 = blockIdx.x * blockDim.x + threadIdx.x; idx2 < inner_size;
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idx2 += blockDim.x * gridDim.x) {
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half k_mix_ = k_mix[idx2];
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half v_mix_ = v_mix[idx2];
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half r_mix_ = r_mix[idx2];
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for (int row = 0; row < outer_size; ++row) {
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int idx1 = row * inner_size + idx2;
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half xx_ = xx[idx1];
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half sx_ = sx[idx1];
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kx[idx1] = __hadd(__hmul(xx_, k_mix_),
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__hmul(sx_, __hsub(__float2half(1), k_mix_)));
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vx[idx1] = __hadd(__hmul(xx_, v_mix_),
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__hmul(sx_, __hsub(__float2half(1), v_mix_)));
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rx[idx1] = __hadd(__hmul(xx_, r_mix_),
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__hmul(sx_, __hsub(__float2half(1), r_mix_)));
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}
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}
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}
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void att_mix(const half *xx, const half *sx, const half *k_mix,
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const half *v_mix, const half *r_mix, const int outer_size,
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const int inner_size, half *kx, half *vx, half *rx) {
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// 256 is good enough on most GPUs
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const int32_t BLOCK_SIZE = 256;
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assert(inner_size % BLOCK_SIZE == 0);
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_att_mix<<<inner_size / BLOCK_SIZE, BLOCK_SIZE>>>(
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xx, sx, k_mix, v_mix, r_mix, outer_size, inner_size, kx, vx, rx);
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}
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struct InplaceSigmoid {
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__device__ __forceinline__ half operator()(int i) const {
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ptr[i] = __float2half(1.0 / (1.0 + exp(-__half2float(ptr[i]))));
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}
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half *ptr;
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};
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struct InplaceMul {
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__device__ __forceinline__ half operator()(int i) const {
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y[i] = __hmul(x[i], y[i]);
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}
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half *y;
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half *x;
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};
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/*
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Equivalent Python code:
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xx = F.layer_norm(x, (x.shape[-1],), weight=ln_w, bias=ln_b)
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sx = torch.cat((sx.unsqueeze(0), xx[:-1,:]))
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kx = xx * k_mix + sx * (1 - k_mix)
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vx = xx * v_mix + sx * (1 - v_mix)
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rx = xx * r_mix + sx * (1 - r_mix)
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r = torch.sigmoid(gemm(rx, rw))
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k = gemm(kx, kw, output_dtype=torch.float32)
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v = gemm(vx, vw, output_dtype=torch.float32)
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T = x.shape[0]
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for t in range(T):
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kk = k[t]
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vv = v[t]
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ww = t_first + kk
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p = torch.maximum(pp, ww)
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e1 = torch.exp(pp - p)
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e2 = torch.exp(ww - p)
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sx[t] = ((e1 * aa + e2 * vv) / (e1 * bb + e2)).to(dtype=x.dtype)
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ww = t_decay + pp
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p = torch.maximum(ww, kk)
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e1 = torch.exp(ww - p)
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e2 = torch.exp(kk - p)
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aa = e1 * aa + e2 * vv
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bb = e1 * bb + e2
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pp = p
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out = gemm(r * sx, ow)
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return x + out, xx[-1,:], aa, bb, pp
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*/
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Tensor att_seq(Tensor x, Tensor sx, Tensor ln_w, Tensor ln_b, Tensor k_mix,
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Tensor v_mix, Tensor r_mix, Tensor kw, Tensor vw, Tensor rw,
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Tensor ow, Tensor t_first, Tensor pp, Tensor aa, Tensor bb,
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Tensor t_decay, /* imm */ Tensor buf, /* out */ Tensor x_plus_out) {
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Tensor xx = at::layer_norm(x, {x.size(-1)}, ln_w, ln_b);
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sx = at::cat({sx.unsqueeze(0), xx.slice(0, 0, -1)}, 0);
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char* buf_ptr = (char*)buf.data_ptr();
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half* kx = (half*)buf_ptr;
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half* vx = kx + x.numel();
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half* rx = vx + x.numel();
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half* wkv_y = rx + x.numel();
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att_mix(data_ptr<half>(xx), data_ptr<half>(sx), data_ptr<half>(k_mix),
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data_ptr<half>(v_mix), data_ptr<half>(r_mix), xx.size(0), xx.size(1),
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kx, vx, rx);
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float* k = reinterpret_cast<float*>(wkv_y + x.numel());
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float* v = k + x.size(0) * kw.size(1);
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half* r = reinterpret_cast<half*>(v + x.size(0) * vw.size(1));
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gemm_fp16_cublas(kx, kw.data_ptr(), k, x.size(0), kw.size(1), kw.size(0), true);
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gemm_fp16_cublas(vx, vw.data_ptr(), v, x.size(0), vw.size(1), vw.size(0), true);
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gemm_fp16_cublas(rx, rw.data_ptr(), r, x.size(0), rw.size(1), rw.size(0), false);
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element_wise(InplaceSigmoid{r}, x.size(0) * rw.size(1));
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cuda_wkv_forward_new(1, x.size(0), x.size(1), data_ptr<float>(t_decay),
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data_ptr<float>(t_first), k, v, r,
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wkv_y, data_ptr<float>(aa),
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data_ptr<float>(bb), data_ptr<float>(pp));
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element_wise(InplaceMul{wkv_y, r}, x.numel());
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gemm_fp16_cublas(wkv_y, ow.data_ptr(), x_plus_out.data_ptr(), x.size(0), ow.size(1), ow.size(0), false);
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x_plus_out += x;
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return xx;
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}
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21
backend-python/rwkv_pip/cuda/element_wise.h
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21
backend-python/rwkv_pip/cuda/element_wise.h
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#include <cassert>
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#include <cstddef>
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#include <cstdint>
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template <typename Func> __global__ void _element_wise(Func func, int n) {
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for (int i = blockIdx.x * blockDim.x + threadIdx.x; i < n;
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i += blockDim.x * gridDim.x) {
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func(i);
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}
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}
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// NOTE: packed data type (e.g. float4) is a overkill for current sizes
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// (4096 in 7B model and 768 in 0.1B model),
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// and is not faster than the plain float version.
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template <typename Func>
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void element_wise(Func func, int n) {
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// 256 is good enough on most GPUs
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const int32_t BLOCK_SIZE = 256;
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assert(n % BLOCK_SIZE == 0);
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_element_wise<<<n / BLOCK_SIZE, BLOCK_SIZE>>>(func, n);
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}
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165
backend-python/rwkv_pip/cuda/ffn.cu
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165
backend-python/rwkv_pip/cuda/ffn.cu
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#include "ATen/ATen.h"
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#include <cuda_fp16.h>
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#include <cuda_runtime.h>
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#include <torch/extension.h>
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#include "element_wise.h"
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#include "util.h"
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using torch::Tensor;
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void gemm_fp16_cublas(const void *a, const void *b, void *c, int ori_m,
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int ori_n, int ori_k, bool output_fp32);
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__global__ void _ffn_seq_mix(const half *xx, const half *sx, const half *k_mix,
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const half *r_mix, const int outer_size,
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const int inner_size, half *kx, half *rx) {
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for (int idx2 = blockIdx.x * blockDim.x + threadIdx.x; idx2 < inner_size;
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idx2 += blockDim.x * gridDim.x) {
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half k_mix_ = k_mix[idx2];
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half r_mix_ = r_mix[idx2];
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for (int row = 0; row < outer_size; ++row) {
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int idx1 = row * inner_size + idx2;
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half xx_ = xx[idx1];
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half sx_ = sx[idx1];
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kx[idx1] = __hadd(__hmul(xx_, k_mix_),
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__hmul(sx_, __hsub(__float2half(1), k_mix_)));
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rx[idx1] = __hadd(__hmul(xx_, r_mix_),
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__hmul(sx_, __hsub(__float2half(1), r_mix_)));
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}
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}
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}
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void ffn_seq_mix(const half *xx, const half *sx, const half *k_mix,
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const half *r_mix, const int outer_size, const int inner_size,
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half *kx, half *rx) {
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// 256 is good enough on most GPUs
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const int32_t BLOCK_SIZE = 256;
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assert(inner_size % BLOCK_SIZE == 0);
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_ffn_seq_mix<<<inner_size / BLOCK_SIZE, BLOCK_SIZE>>>(
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xx, sx, k_mix, r_mix, outer_size, inner_size, kx, rx);
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}
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struct InplaceSigmoid {
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__device__ __forceinline__ void operator()(int i) const {
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ptr[i] = __float2half(1.0 / (1.0 + exp(-__half2float(ptr[i]))));
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}
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half *ptr;
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};
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struct InplaceReLUAndSquare {
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__device__ __forceinline__ void operator()(int i) const {
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// __hmax is not defined in old cuda
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if (__hgt(ptr[i], __float2half(0))) {
|
||||
ptr[i] = __hmul(ptr[i], ptr[i]);
|
||||
} else {
|
||||
ptr[i] = __float2half(0);
|
||||
}
|
||||
}
|
||||
half *ptr;
|
||||
};
|
||||
|
||||
struct InplaceFma {
|
||||
__device__ __forceinline__ void operator()(int i) const {
|
||||
a[i] = __hfma(a[i], b[i], c[i]);
|
||||
}
|
||||
half *a;
|
||||
const half *b;
|
||||
const half *c;
|
||||
};
|
||||
|
||||
/*
|
||||
Equivalent Python code:
|
||||
|
||||
xx = F.layer_norm(x, (x.shape[-1],), weight=ln_w, bias=ln_b)
|
||||
sx = torch.cat((sx.unsqueeze(0), xx[:-1,:]))
|
||||
kx = xx * k_mix + sx * (1 - k_mix)
|
||||
rx = xx * r_mix + sx * (1 - r_mix)
|
||||
|
||||
r = torch.sigmoid(gemm(rx, rw))
|
||||
vx = torch.square(torch.relu(gemm(kx, kw)))
|
||||
out = r * gemm(vx, vw)
|
||||
return x + out, xx[-1,:]
|
||||
*/
|
||||
Tensor ffn_seq(Tensor x, Tensor sx, Tensor ln_w, Tensor ln_b, Tensor k_mix,
|
||||
Tensor r_mix, Tensor kw, Tensor vw, Tensor rw,
|
||||
/* imm */ Tensor buf,
|
||||
/* out */ Tensor x_plus_out) {
|
||||
Tensor xx = at::layer_norm(x, {x.size(-1)}, ln_w, ln_b);
|
||||
sx = at::cat({sx.unsqueeze(0), xx.slice(0, 0, -1)}, 0);
|
||||
char *buf_ptr = (char *)buf.data_ptr();
|
||||
half *kx = (half *)buf_ptr;
|
||||
half *rx = kx + x.numel();
|
||||
half *vx = rx + x.numel();
|
||||
half *r = vx + x.size(0) * kw.size(1);
|
||||
ffn_seq_mix(data_ptr<half>(xx), data_ptr<half>(sx), data_ptr<half>(k_mix),
|
||||
data_ptr<half>(r_mix), xx.size(0), xx.size(1), kx, rx);
|
||||
|
||||
gemm_fp16_cublas(rx, rw.data_ptr(), r, x.size(0), rw.size(1), x.size(1),
|
||||
false);
|
||||
element_wise(InplaceSigmoid{r}, x.size(0) * rw.size(1));
|
||||
gemm_fp16_cublas(kx, kw.data_ptr(), vx, x.size(0), kw.size(1), x.size(1),
|
||||
false);
|
||||
element_wise(InplaceReLUAndSquare{vx}, x.size(0) * kw.size(1));
|
||||
gemm_fp16_cublas(vx, vw.data_ptr(), x_plus_out.data_ptr(), x.size(0),
|
||||
vw.size(1), vw.size(0), false);
|
||||
element_wise(InplaceFma{data_ptr<half>(x_plus_out), r, data_ptr<half>(x)},
|
||||
x_plus_out.numel());
|
||||
return xx;
|
||||
}
|
||||
|
||||
struct FfnOneMix {
|
||||
__device__ __forceinline__ void operator()(int idx) {
|
||||
half k_mix_ = k_mix[idx];
|
||||
half r_mix_ = r_mix[idx];
|
||||
half xx_ = xx[idx];
|
||||
half sx_ = sx[idx];
|
||||
kx[idx] = __hadd(__hmul(xx_, k_mix_),
|
||||
__hmul(sx_, __hsub(__float2half(1), k_mix_)));
|
||||
rx[idx] = __hadd(__hmul(xx_, r_mix_),
|
||||
__hmul(sx_, __hsub(__float2half(1), r_mix_)));
|
||||
}
|
||||
half *k_mix;
|
||||
half *r_mix;
|
||||
half *xx;
|
||||
half *sx;
|
||||
half *kx;
|
||||
half *rx;
|
||||
};
|
||||
|
||||
/*
|
||||
Equivalent Python code:
|
||||
|
||||
xx = F.layer_norm(x, (x.shape[-1],), weight=ln_w, bias=ln_b)
|
||||
kx = xx * k_mix + sx * (1 - k_mix)
|
||||
rx = xx * r_mix + sx * (1 - r_mix)
|
||||
|
||||
r = torch.sigmoid(gemm(rx, rw))
|
||||
vx = torch.square(torch.relu(gemm(kx, kw)))
|
||||
out = r * gemm(vx, vw)
|
||||
return x + out, xx
|
||||
*/
|
||||
Tensor ffn_one(Tensor x, Tensor sx, Tensor ln_w, Tensor ln_b, Tensor k_mix,
|
||||
Tensor r_mix, Tensor kw, Tensor vw, Tensor rw,
|
||||
/* imm */ Tensor buf,
|
||||
/* out */ Tensor x_plus_out) {
|
||||
Tensor xx = at::layer_norm(x, {x.size(-1)}, ln_w, ln_b);
|
||||
char *buf_ptr = (char *)buf.data_ptr();
|
||||
half *kx = (half *)buf_ptr;
|
||||
half *rx = kx + x.numel();
|
||||
half *vx = rx + x.numel();
|
||||
half *r = vx + x.size(0) * kw.size(1);
|
||||
element_wise(FfnOneMix{data_ptr<half>(k_mix), data_ptr<half>(r_mix),
|
||||
data_ptr<half>(xx), data_ptr<half>(sx), kx, rx},
|
||||
x.numel());
|
||||
// vector * matrix, so m = 1
|
||||
gemm_fp16_cublas(rx, rw.data_ptr(), r, 1, rw.size(1), rw.size(0), false);
|
||||
element_wise(InplaceSigmoid{r}, rw.size(1));
|
||||
gemm_fp16_cublas(kx, kw.data_ptr(), vx, 1, kw.size(1), kw.size(0), false);
|
||||
element_wise(InplaceReLUAndSquare{vx}, kw.size(1));
|
||||
gemm_fp16_cublas(vx, vw.data_ptr(), x_plus_out.data_ptr(), 1, vw.size(1),
|
||||
vw.size(0), false);
|
||||
element_wise(InplaceFma{data_ptr<half>(x_plus_out), r, data_ptr<half>(x)},
|
||||
x_plus_out.numel());
|
||||
return xx;
|
||||
}
|
7
backend-python/rwkv_pip/cuda/util.h
vendored
7
backend-python/rwkv_pip/cuda/util.h
vendored
@ -1,7 +0,0 @@
|
||||
#include "ATen/ATen.h"
|
||||
#include <cuda_fp16.h>
|
||||
|
||||
template <typename T> T *data_ptr(torch::Tensor x) { return x.data_ptr<T>(); }
|
||||
template <> inline half *data_ptr(torch::Tensor x) {
|
||||
return reinterpret_cast<half *>(x.data_ptr<at::Half>());
|
||||
}
|
130
backend-python/rwkv_pip/model.py
vendored
130
backend-python/rwkv_pip/model.py
vendored
@ -220,7 +220,7 @@ class RWKV(MyModule):
|
||||
else:
|
||||
prxxx = lambda *args, **kwargs: None
|
||||
|
||||
STRATEGY_REGEX = r"^(?:(?:^|->) *(?:cuda(?::[\d]+)?|cpu|mps) (?:fp(?:16|32)|bf16)(?:i8|i4|i3)?(?: \*[\d]+\+?)? *)+$"
|
||||
STRATEGY_REGEX = r"^(?:(?:^|->) *(?:cuda(?::[\d]+)?|cpu|mps|dml) (?:fp(?:16|32)|bf16)(?:i8|i4|i3)?(?: \*[\d]+\+?)? *)+$"
|
||||
if not re.match(STRATEGY_REGEX, strategy):
|
||||
raise ValueError(
|
||||
"Invalid strategy. Please read https://pypi.org/project/rwkv/"
|
||||
@ -372,6 +372,10 @@ class RWKV(MyModule):
|
||||
strategy[n].atype = s[i][1][0]
|
||||
strategy[n].wtype = s[i][1][1]
|
||||
strategy[n].stream = False
|
||||
if strategy[n].device == "dml":
|
||||
import torch_directml
|
||||
|
||||
strategy[n].device = torch_directml.device()
|
||||
if i == stream_i and n >= (plan[i] - stream_count):
|
||||
strategy[n].stream = True
|
||||
break
|
||||
@ -577,10 +581,7 @@ class RWKV(MyModule):
|
||||
prxxx(f"Converted and saved. Now this will exit.")
|
||||
exit(0)
|
||||
|
||||
if self.version == 5.2:
|
||||
assert (
|
||||
os.environ["RWKV_CUDA_ON"] == "1"
|
||||
), "Please Enable Custom CUDA Kernel. Latest RWKV-5 requires os.environ['RWKV_CUDA_ON'] == '1' (will fix soon)"
|
||||
if self.version == 5.2 and os.environ["RWKV_CUDA_ON"] == "1":
|
||||
HEAD_SIZE = args.n_att // args.n_head
|
||||
if LoadPreCompileLibrary("rwkv5") is True:
|
||||
rwkv5 = torch.ops.rwkv5
|
||||
@ -1363,6 +1364,7 @@ class RWKV(MyModule):
|
||||
|
||||
########################################################################################################
|
||||
|
||||
@MyFunction
|
||||
def att_seq_v5_2(
|
||||
self,
|
||||
x,
|
||||
@ -1408,29 +1410,29 @@ class RWKV(MyModule):
|
||||
gx = xx * g_mix + sx * (1 - g_mix)
|
||||
|
||||
H = t_decay.shape[0]
|
||||
N = x.shape[-1] // H
|
||||
S = x.shape[-1] // H
|
||||
T = x.shape[0]
|
||||
|
||||
r = gemm(rx, rw, output_dtype=torch.float32)
|
||||
k = gemm(kx, kw, output_dtype=torch.float32)
|
||||
v = gemm(vx, vw, output_dtype=torch.float32)
|
||||
r = gemm(rx, rw, output_dtype=torch.float32).view(T, H, S).transpose(0, 1)
|
||||
k = (
|
||||
gemm(kx, kw, output_dtype=torch.float32)
|
||||
.view(T, H, S)
|
||||
.transpose(0, 1)
|
||||
.transpose(-2, -1)
|
||||
)
|
||||
v = gemm(vx, vw, output_dtype=torch.float32).view(T, H, S).transpose(0, 1)
|
||||
g = F.silu(gemm(gx, gw))
|
||||
|
||||
out, s = self.RUN_RWKV_5(
|
||||
1,
|
||||
T,
|
||||
self.args.n_att,
|
||||
H,
|
||||
s.transpose(-1, -2).contiguous(),
|
||||
r,
|
||||
k,
|
||||
v,
|
||||
w=t_decay,
|
||||
u=t_first,
|
||||
)
|
||||
s = s.transpose(-1, -2)
|
||||
out = torch.empty((T, H, S), dtype=r.dtype, device=r.device)
|
||||
for t in range(T):
|
||||
rt = r[:, t : t + 1, :]
|
||||
kt = k[:, :, t : t + 1]
|
||||
vt = v[:, t : t + 1, :]
|
||||
at = gemm(kt, vt)
|
||||
out[t] = (rt @ (t_first * at + s)).squeeze(1)
|
||||
s = at + t_decay * s
|
||||
|
||||
out = out.reshape(T, H * N)
|
||||
out = out.reshape(T, H * S)
|
||||
out = F.group_norm(out, num_groups=H, weight=lx_w, bias=lx_b)
|
||||
out = out.to(dtype=x.dtype) * g
|
||||
out = gemm(out, ow)
|
||||
@ -1543,6 +1545,81 @@ class RWKV(MyModule):
|
||||
out = self.mm8_seq(r * y, ow, omx, orx, omy, ory)
|
||||
return x + out, xx[-1, :], aa, bb, pp
|
||||
|
||||
# NOTE: decorate with @MyFunction causes JIT error
|
||||
def cuda_att_seq_v5_2(
|
||||
self,
|
||||
x,
|
||||
sx,
|
||||
s,
|
||||
ln_w,
|
||||
ln_b,
|
||||
lx_w,
|
||||
lx_b,
|
||||
k_mix,
|
||||
v_mix,
|
||||
r_mix,
|
||||
g_mix,
|
||||
t_decay,
|
||||
t_first,
|
||||
kw,
|
||||
vw,
|
||||
rw,
|
||||
gw,
|
||||
ow,
|
||||
kmx,
|
||||
krx,
|
||||
kmy,
|
||||
kry,
|
||||
vmx,
|
||||
vrx,
|
||||
vmy,
|
||||
vry,
|
||||
rmx,
|
||||
rrx,
|
||||
rmy,
|
||||
rry,
|
||||
omx,
|
||||
orx,
|
||||
omy,
|
||||
ory,
|
||||
):
|
||||
xx = F.layer_norm(x, (x.shape[-1],), weight=ln_w, bias=ln_b)
|
||||
sx = torch.cat((sx.unsqueeze(0), xx[:-1, :]))
|
||||
kx = xx * k_mix + sx * (1 - k_mix)
|
||||
vx = xx * v_mix + sx * (1 - v_mix)
|
||||
rx = xx * r_mix + sx * (1 - r_mix)
|
||||
gx = xx * g_mix + sx * (1 - g_mix)
|
||||
|
||||
H = t_decay.shape[0]
|
||||
N = x.shape[-1] // H
|
||||
T = x.shape[0]
|
||||
|
||||
r = gemm(rx, rw, output_dtype=torch.float32)
|
||||
k = gemm(kx, kw, output_dtype=torch.float32)
|
||||
v = gemm(vx, vw, output_dtype=torch.float32)
|
||||
g = F.silu(gemm(gx, gw))
|
||||
|
||||
out, s = self.RUN_RWKV_5(
|
||||
1,
|
||||
T,
|
||||
self.args.n_att,
|
||||
H,
|
||||
s.transpose(-1, -2).contiguous(),
|
||||
r,
|
||||
k,
|
||||
v,
|
||||
w=t_decay,
|
||||
u=t_first,
|
||||
)
|
||||
s = s.transpose(-1, -2)
|
||||
|
||||
out = out.reshape(T, H * N)
|
||||
out = F.group_norm(out, num_groups=H, weight=lx_w, bias=lx_b)
|
||||
out = out.to(dtype=x.dtype) * g
|
||||
out = gemm(out, ow)
|
||||
|
||||
return x + out, xx[-1, :], s
|
||||
|
||||
########################################################################################################
|
||||
|
||||
def forward(self, tokens, state, full_output=False):
|
||||
@ -1622,7 +1699,10 @@ class RWKV(MyModule):
|
||||
atype = dd.atype
|
||||
wtype = dd.wtype
|
||||
if seq_mode:
|
||||
if "cuda" in str(dev) and os.environ["RWKV_CUDA_ON"] == "1":
|
||||
cuda_applicable = os.environ[
|
||||
"RWKV_CUDA_ON"
|
||||
] == "1" and "cuda" in str(dev)
|
||||
if cuda_applicable:
|
||||
ATT = (
|
||||
self.cuda_att_seq
|
||||
if wtype != torch.uint8
|
||||
@ -1636,6 +1716,8 @@ class RWKV(MyModule):
|
||||
ATT = self.att_seq_v5_1
|
||||
elif self.version == 5.2:
|
||||
ATT = self.att_seq_v5_2
|
||||
if cuda_applicable:
|
||||
ATT = self.cuda_att_seq_v5_2
|
||||
FFN = self.ffn_seq if wtype != torch.uint8 else self.ffn_seq_i8
|
||||
else:
|
||||
ATT = self.att_one if wtype != torch.uint8 else self.att_one_i8
|
||||
|
@ -254,6 +254,5 @@
|
||||
"User Name": "ユーザー名",
|
||||
"Assistant Name": "アシスタント名",
|
||||
"Insert default system prompt at the beginning": "最初にデフォルトのシステムプロンプトを挿入",
|
||||
"Please Enable Custom CUDA Kernel. Latest RWKV-5 requires os.environ['RWKV_CUDA_ON'] == '1' (will fix soon).": "カスタムCUDAカーネルを有効にしてください。最新のRWKV-5ではos.environ['RWKV_CUDA_ON'] == '1'が必要です(近日中に修正します)。",
|
||||
"Format Content": "内容フォーマットの規格化"
|
||||
}
|
@ -254,6 +254,5 @@
|
||||
"User Name": "用户名称",
|
||||
"Assistant Name": "AI名称",
|
||||
"Insert default system prompt at the beginning": "在开头自动插入默认系统提示",
|
||||
"Please Enable Custom CUDA Kernel. Latest RWKV-5 requires os.environ['RWKV_CUDA_ON'] == '1' (will fix soon).": "请启用自定义CUDA算子。最新的RWKV-5需要os.environ['RWKV_CUDA_ON'] == '1' (未来会修复)",
|
||||
"Format Content": "规范格式"
|
||||
}
|
@ -212,7 +212,6 @@ export const RunButton: FC<{ onClickRun?: MouseEventHandler, iconMode?: boolean
|
||||
'no NVIDIA driver': 'Found no NVIDIA driver, please install the latest driver.',
|
||||
'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.',
|
||||
'Please Enable Custom CUDA Kernel': 'Please Enable Custom CUDA Kernel. Latest RWKV-5 requires os.environ[\'RWKV_CUDA_ON\'] == \'1\' (will fix soon).'
|
||||
};
|
||||
const matchedError = Object.entries(errorsMap).find(([key, _]) => error.includes(key));
|
||||
const message = matchedError ? t(matchedError[1]) : error;
|
||||
|
Loading…
Reference in New Issue
Block a user