P0 fixes (blocking usability): - FIX-01: thread-local cuBLAS handle (was creating/destroying per matmul) - FIX-16: EOS token no longer leaks into API responses - FIX-17: max_seq_len configurable via --max-seq-len (default 2048, was hardcoded 256) - FIX-18: max_tokens clamped to available seq space, prompt overflow returns 400 P1 fixes (bugs & performance): - FIX-07: CachingAllocator wired into all hot paths (to_device, embedding, rope, concat) - FIX-08: CudaDeviceProp buffer increased to 32KB for CUDA 12.9 safety - FIX-09: tokenizer byte_fallback graceful degradation (was panic) - FIX-19: causal mask uses -INFINITY instead of -1e9 (BF16 supports inf) - FIX-20: LayerNorm rewritten to numerically stable two-pass algorithm - FIX-21: min block size guard (32 threads) for LayerNorm/RMSNorm launches P2 fixes (improvements): - FIX-22: Option<GpuKVCache> + take() eliminates dummy KV cache allocations - FIX-23: RoPE cache no longer artificially capped at 8192 positions Verified on dash5 (RTX 5090): 51 tok/s batch=1, 74 tok/s 2-concurrent, 1.7-3.3x HF transformers. Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
138 lines
4.6 KiB
Plaintext
138 lines
4.6 KiB
Plaintext
#include "../common.cuh"
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// RMSNorm: y[i] = x[i] * rsqrt(mean(x²) + eps) * gamma[i]
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// Each block processes one row of shape [hidden_size].
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__global__ void rmsnorm_f32(
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const float* __restrict__ x,
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const float* __restrict__ gamma,
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float* __restrict__ out,
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int hidden_size, float eps
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) {
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int row = blockIdx.x;
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const float* x_row = x + row * hidden_size;
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float* out_row = out + row * hidden_size;
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float sum_sq = 0.0f;
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for (int i = threadIdx.x; i < hidden_size; i += blockDim.x) {
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float v = x_row[i];
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sum_sq += v * v;
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}
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sum_sq = block_reduce_sum(sum_sq);
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__shared__ float s_rms_inv;
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if (threadIdx.x == 0) {
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s_rms_inv = rsqrtf(sum_sq / hidden_size + eps);
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}
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__syncthreads();
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float rms_inv = s_rms_inv;
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for (int i = threadIdx.x; i < hidden_size; i += blockDim.x) {
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out_row[i] = x_row[i] * rms_inv * gamma[i];
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}
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}
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__global__ void rmsnorm_bf16(
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const __nv_bfloat16* __restrict__ x,
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const __nv_bfloat16* __restrict__ gamma,
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__nv_bfloat16* __restrict__ out,
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int hidden_size, float eps
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) {
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int row = blockIdx.x;
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const __nv_bfloat16* x_row = x + row * hidden_size;
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__nv_bfloat16* out_row = out + row * hidden_size;
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float sum_sq = 0.0f;
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for (int i = threadIdx.x; i < hidden_size; i += blockDim.x) {
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float v = __bfloat162float(x_row[i]);
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sum_sq += v * v;
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}
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sum_sq = block_reduce_sum(sum_sq);
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__shared__ float s_rms_inv;
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if (threadIdx.x == 0) {
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s_rms_inv = rsqrtf(sum_sq / hidden_size + eps);
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}
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__syncthreads();
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float rms_inv = s_rms_inv;
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for (int i = threadIdx.x; i < hidden_size; i += blockDim.x) {
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float v = __bfloat162float(x_row[i]);
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float g = __bfloat162float(gamma[i]);
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out_row[i] = __float2bfloat16(v * rms_inv * g);
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}
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}
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// Fused Add + RMSNorm: sum_out = x + residual, normed_out = rmsnorm(sum_out, gamma, eps)
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// Each block handles one row of [hidden_size].
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__global__ void add_rmsnorm_bf16(
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const __nv_bfloat16* __restrict__ x,
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const __nv_bfloat16* __restrict__ residual,
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const __nv_bfloat16* __restrict__ gamma,
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__nv_bfloat16* __restrict__ normed_out,
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__nv_bfloat16* __restrict__ sum_out,
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int hidden_size, float eps
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) {
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int row = blockIdx.x;
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const __nv_bfloat16* x_row = x + row * hidden_size;
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const __nv_bfloat16* res_row = residual + row * hidden_size;
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__nv_bfloat16* sum_row = sum_out + row * hidden_size;
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__nv_bfloat16* norm_row = normed_out + row * hidden_size;
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// Pass 1: compute sum = x + residual, and accumulate sum_sq
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float sum_sq = 0.0f;
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for (int i = threadIdx.x; i < hidden_size; i += blockDim.x) {
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float s = __bfloat162float(x_row[i]) + __bfloat162float(res_row[i]);
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sum_row[i] = __float2bfloat16(s);
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sum_sq += s * s;
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}
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sum_sq = block_reduce_sum(sum_sq);
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__shared__ float s_rms_inv;
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if (threadIdx.x == 0) {
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s_rms_inv = rsqrtf(sum_sq / hidden_size + eps);
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}
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__syncthreads();
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// Pass 2: normed_out = sum * rms_inv * gamma
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float rms_inv = s_rms_inv;
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for (int i = threadIdx.x; i < hidden_size; i += blockDim.x) {
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float s = __bfloat162float(sum_row[i]);
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float g = __bfloat162float(gamma[i]);
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norm_row[i] = __float2bfloat16(s * rms_inv * g);
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}
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}
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extern "C" {
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void launch_rmsnorm_f32(const void* x, const void* gamma, void* out,
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int rows, int hidden_size, float eps, void* stream) {
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int block = (hidden_size < 1024) ? hidden_size : 1024;
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if (block < 32) block = 32;
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rmsnorm_f32<<<rows, block, 0, (cudaStream_t)stream>>>(
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(const float*)x, (const float*)gamma, (float*)out, hidden_size, eps);
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}
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void launch_rmsnorm_bf16(const void* x, const void* gamma, void* out,
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int rows, int hidden_size, float eps, void* stream) {
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int block = (hidden_size < 1024) ? hidden_size : 1024;
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if (block < 32) block = 32;
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rmsnorm_bf16<<<rows, block, 0, (cudaStream_t)stream>>>(
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(const __nv_bfloat16*)x, (const __nv_bfloat16*)gamma,
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(__nv_bfloat16*)out, hidden_size, eps);
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}
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void launch_add_rmsnorm_bf16(const void* x, const void* residual, const void* gamma,
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void* normed_out, void* sum_out,
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int rows, int hidden_size, float eps, void* stream) {
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int block = (hidden_size < 1024) ? hidden_size : 1024;
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if (block < 32) block = 32;
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add_rmsnorm_bf16<<<rows, block, 0, (cudaStream_t)stream>>>(
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(const __nv_bfloat16*)x, (const __nv_bfloat16*)residual,
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(const __nv_bfloat16*)gamma,
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(__nv_bfloat16*)normed_out, (__nv_bfloat16*)sum_out,
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hidden_size, eps);
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}
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}
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