mirror of
https://github.com/matrix-construct/construct
synced 2024-11-16 06:51:08 +01:00
205 lines
6.8 KiB
C++
205 lines
6.8 KiB
C++
// Matrix Construct
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//
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// Copyright (C) Matrix Construct Developers, Authors & Contributors
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// Copyright (C) 2016-2021 Jason Volk <jason@zemos.net>
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//
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// Permission to use, copy, modify, and/or distribute this software for any
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// purpose with or without fee is hereby granted, provided that the above
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// copyright notice and this permission notice is present in all copies. The
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// full license for this software is available in the LICENSE file.
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#pragma once
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#define HAVE_IRCD_GPT_CTRL_H
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/// Result logit control block.
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struct ircd_gpt_ctrl_logit
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{
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/// Vocabulary token.
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ushort token;
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/// Padding #0.
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ushort flag;
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/// Result logit softmax probability.
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float samax;
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};
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/// Target label control block. Results for each target are registered
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/// and state is updated each cycle.
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struct ircd_gpt_ctrl_label
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{
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/// Logit descriptor
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struct ircd_gpt_ctrl_logit logit;
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/// Loss state
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struct ircd_math_mean loss;
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/// Perplexity state
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struct ircd_math_mean ppl;
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};
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/// Master clock
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struct ircd_gpt_ctrl_clk
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{
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/// Master clock. The cycle count is incremented by one in device software
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/// after each repetition of the kernels producing one additional token.
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/// The cycle count resets to zero before the beginning of each sample.
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uint cycle;
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/// Master clock. Sample consists of one or more cycles; sample count is
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/// incremented by one in device software after every accept condition,
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/// growing monotonically for the `step`; resets to zero each `step`.
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uint samp;
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/// Master clock. Step (or timestep) consists of one or more samples. Step
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/// count is incremented by one in device software after each backward
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/// propagation. Step grows monotonically even across epochs.
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uint step;
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/// Master clock. Epoch consists of one or more steps; epoch count is
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/// incremented monotonically by one after every repetition of the corpus.
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uint epoch;
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};
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/// Profiling block
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struct ircd_gpt_ctrl_prof
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{
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/// Host timestamp sampled at last control page transfer to the device.
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ulong released;
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/// Host timestamp sampled when this control page accquired by the host.
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ulong acquired;
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/// Device timestamp at beginning of cycle.
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ulong entered;
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/// Device timestamp at end of cycle.
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ulong finished;
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/// Device timestamps manually placed by developer.
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ulong custom[2];
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};
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/// Task Control Page
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///
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/// The control block is shared with our device software. Execution state is
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/// maintained in the task control block across cycles. The control block is
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/// the mutable state component for an execution; for the immutable component
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/// also shared with device software see opts.h.
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///
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struct ircd_gpt_ctrl
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{
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/// Accept register. If >= 0 the cycle produced a token which satisfies the
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/// indicated accept condition.
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int accept;
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/// Dispatch register. Device software wishes additional cycles to be
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/// commanded by the host. Effectively minimum distance until next accept.
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uint dispatch;
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/// Token counter. The counter indicates the number of tokens in the
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/// context buffer, the last token residing at `buffer[count-1]`. Each
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/// cycle produces the next token at `buffer[count]`; increments count.
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uint count;
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/// Token counter. The counter indicates the actual number of valid tokens
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/// in the context buffer. The value is always `>= count`. Tokens are only
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/// generated to `buffer[count]` when `tokens == count` and both are
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/// incremented in unison. When `tokens > count` generated tokens are only
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/// evaluated against the existing context buffer and `tokens` not incr.
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uint tokens;
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/// Master clock.
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struct ircd_gpt_ctrl_clk clk;
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/// Profiling related.
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struct ircd_gpt_ctrl_prof prof;
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/// PRNG xoshiro256 internal state (note: see opts.h to seed the prng).
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ulong rand[4];
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/// Top result summary from the softed result logit softmax vector. This
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/// is updated each cycle by device software with extended statistics on
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/// the top N results.
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struct ircd_gpt_ctrl_logit top[16] __attribute__((aligned(8)));
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/// User label control block. Results for each target are registered
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/// and state is updated each cycle; averaged for each step.
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struct ircd_gpt_ctrl_label label[14] __attribute__((aligned(64)));
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/// Target result label; traces training token.
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struct ircd_gpt_ctrl_label target __attribute__((aligned(64)));
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/// Selected result token label.
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struct ircd_gpt_ctrl_label select __attribute__((aligned(64)));
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/// Incremented when the target is the selected token.
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uint hit, miss;
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/// Attention summary; [layer][head] => [token]. Each value points to a
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/// position in the token buffer. The top-scoring softmax result for each
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/// head in each layer is attending to the token.at(value) for this cycle.
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/// These values are completely updated every cycle.
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ushort attn[12][12];
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/// Header magic: host sets 0xDEADBEEF before release to device; device
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/// sets 0xC7012C7012 before release to host.
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ulong magic;
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/// Token buffer
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ushort token[1024] __attribute__((aligned(2048)));
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}
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__attribute__((aligned(4096)));
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#if defined(__cplusplus)
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namespace ircd::gpt
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{
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using ctrl = struct ircd_gpt_ctrl;
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using ctrl_clk = struct ircd_gpt_ctrl_clk;
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using ctrl_prof = struct ircd_gpt_ctrl_prof;
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using ctrl_logit = struct ircd_gpt_ctrl_logit;
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using ctrl_label = struct ircd_gpt_ctrl_label;
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string_view debug_token_at(const mutable_buffer &, const opts &, const ctrl &, const uint, const uint fmt = -1U);
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string_view debug_token(const mutable_buffer &, const opts &, const ctrl &, const uint fmt = -1U);
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string_view debug_head(const mutable_buffer &, const opts &, const ctrl_clk &);
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string_view debug_head(const mutable_buffer &, const opts &, const ctrl &);
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string_view debug(const mutable_buffer &, const opts &, const ctrl_prof &);
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string_view debug(const mutable_buffer &, const opts &, const ctrl_logit &, const uint fmt = 0);
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string_view debug(const mutable_buffer &, const opts &, const ctrl_label &, const uint fmt = 0);
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string_view debug(const mutable_buffer &, const opts &, const ctrl &);
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string_view debug_attn(const mutable_buffer &, const opts &, const ctrl &, const uint);
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string_view debug_label(const mutable_buffer &, const opts &, const ctrl &, const uint, const uint fmt = 0);
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string_view debug_top(const mutable_buffer &, const opts &, const ctrl &, const uint);
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}
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#endif
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#if defined(__cplusplus)
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static_assert(sizeof(struct ircd_gpt_ctrl) % 4096 == 0);
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#endif
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#if defined(__cplusplus) && defined(__GLIBCXX__)
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static_assert(offsetof(struct ircd_gpt_ctrl, token) == 2048);
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static_assert(std::is_standard_layout<struct ircd_gpt_ctrl>::value);
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#endif
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#ifdef __OPENCL_VERSION__
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inline void
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ircd_gpt_prof_start(__global struct ircd_gpt_ctrl *const ctrl,
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const bool cond)
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{
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if(cond)
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ctrl->prof.custom[0] = ircd_simt_cycles();
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}
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#endif
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#ifdef __OPENCL_VERSION__
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inline void
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ircd_gpt_prof_stop(__global struct ircd_gpt_ctrl *const ctrl,
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const bool cond)
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{
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if(cond)
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ctrl->prof.custom[1] = ircd_simt_cycles();
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}
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#endif
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