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db9c06211e125058b2d57eae83388435d3868f87
hakmem/core/front/tiny_ring_cache.h
Moe Charm (CI) db9c06211e Phase 21-1-A: Ring cache 基本実装 - Array-based TLS cache (C2/C3) 
## Summary
Phase 21-1-A の基本実装完了。Ring buffer ベースの TLS cache を C2/C3
(33-128B)専用に実装。ポインタチェイス削減で +15-20% 性能向上を目指す。

## Implementation

**Files Created**:
- `core/front/tiny_ring_cache.h` - Ring cache API, ENV control
- `core/front/tiny_ring_cache.c` - Ring cache implementation

**Makefile Integration**:
- Added `core/front/tiny_ring_cache.o` to OBJS_BASE
- Added `core/front/tiny_ring_cache_shared.o` to SHARED_OBJS
- Added `core/front/tiny_ring_cache.o` to BENCH_HAKMEM_OBJS_BASE

## Design (Task 先生調査結果 + ChatGPT フィードバック)

**Ring Buffer Structure**:
- C2/C3 専用(hot classes, 33-128B)
- Default 128 slots (power-of-2, ENV で 64/128/256 A/B 可能)
- Ultra-fast pop/push (1-2 instructions, array access)
- Fast modulo via mask (capacity - 1)

**Hierarchy** (Option 4: UltraHot 置き換え):
```
Ring (L0, C2/C3 専用) → HeapV2 (L1, fallback) → TLS SLL (L2) → SuperSlab (L3)
```

**Rationale**:
- UltraHot の C3 問題(5.8% hit rate)を根本解決
- Phase 19-3 の +12.9%(UltraHot 除去)を維持
- Ring サイズ(128)>> UltraHot(4)→ hit rate 大幅向上期待

**Performance Goal**:
- Pointer chasing: TLS SLL 1 回 → Ring 0 回
- Memory access: 3 → 2 回
- Cache locality: 配列(連続メモリ)vs linked list
- Expected: +15-20% (54.4M → 62-65M ops/s)

## ENV Variables

```bash
HAKMEM_TINY_HOT_RING_ENABLE=1  # Ring 有効化 (default: 0)
HAKMEM_TINY_HOT_RING_C2=128    # C2 サイズ (default: 128)
HAKMEM_TINY_HOT_RING_C3=128    # C3 サイズ (default: 128)
HAKMEM_TINY_HOT_RING_CASCADE=1 # SLL → Ring refill (default: 0)
```

## Implementation Status

Phase 21-1-A:  **COMPLETE**
- Ring buffer data structure
- TLS variables
- ENV control (enable/capacity)
- Power-of-2 capacity (fast modulo)
- Ultra-fast pop/push inline functions
- Refill from SLL (scaffold)
- Init/shutdown/stats (scaffold)
- Makefile integration
- Compile success

Phase 21-1-B:  **NEXT** - Alloc/Free 統合
Phase 21-1-C:  **PENDING** - Refill/Cascade 実装
Phase 21-1-D:  **PENDING** - A/B テスト

## Next Steps

1. Alloc path 統合 (`core/tiny_alloc_fast.inc.h`)
2. Free path 統合 (`core/tiny_free_fast_v2.inc.h`)
3. Init call from `hakmem_tiny.c`
4. A/B test: Ring vs UltraHot vs Baseline

🎯 Target: 62-65M ops/s (+15-20% vs 54.4M baseline)

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-16 07:32:24 +09:00

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// tiny_ring_cache.h - Phase 21-1: Array-based hot cache (C2/C3 only)
//
// Goal: Eliminate pointer chasing in TLS SLL by using ring buffer
// Target: +15-20% performance (54.4M → 62-65M ops/s)
//
// Design (ChatGPT feedback):
// - Ring → SLL → SuperSlab (3-layer hierarchy)
// - Ring size: 128 slots (ENV: 64/128/256 A/B test)
// - C2/C3 only (hot classes, 33-128B)
// - Replaces UltraHot (Phase 19-3: +12.9% by removing UltraHot)
//
// Performance:
// - Alloc: 1-2 instructions (array access, no pointer chasing)
// - Free: 1-2 instructions (array write, no pointer chasing)
// - vs TLS SLL: 3 mem accesses → 2 mem accesses, 1 cache miss → 0
//
// ENV Variables:
// HAKMEM_TINY_HOT_RING_ENABLE=1 # Enable Ring cache (default: 0)
// HAKMEM_TINY_HOT_RING_C2=128 # C2 ring size (default: 128)
// HAKMEM_TINY_HOT_RING_C3=128 # C3 ring size (default: 128)
// HAKMEM_TINY_HOT_RING_CASCADE=1 # Enable SLL → Ring refill (default: 0)
#ifndef HAK_FRONT_TINY_RING_CACHE_H
#define HAK_FRONT_TINY_RING_CACHE_H
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>
#include "../hakmem_build_flags.h"
// ============================================================================
// Ring Buffer Structure
// ============================================================================
typedef struct {
void** slots; // Dynamic array (allocated at init, power-of-2 size)
uint16_t head; // Pop index (consumer)
uint16_t tail; // Push index (producer)
uint16_t capacity; // Ring size (power of 2 for fast modulo: & (capacity-1))
uint16_t mask; // Capacity - 1 (for fast modulo)
} TinyRingCache;
// ============================================================================
// External TLS Variables (defined in hakmem_tiny.c)
// ============================================================================
extern __thread TinyRingCache g_ring_cache_c2;
extern __thread TinyRingCache g_ring_cache_c3;
// ============================================================================
// ENV Control (cached, lazy init)
// ============================================================================
// Enable flag (default: 0, OFF)
static inline int ring_cache_enabled(void) {
static int g_enable = -1;
if (__builtin_expect(g_enable == -1, 0)) {
const char* e = getenv("HAKMEM_TINY_HOT_RING_ENABLE");
g_enable = (e && *e && *e != '0') ? 1 : 0;
#if !HAKMEM_BUILD_RELEASE
if (g_enable) {
fprintf(stderr, "[Ring-INIT] ring_cache_enabled() = %d\n", g_enable);
fflush(stderr);
}
#endif
}
return g_enable;
}
// C2 capacity (default: 128)
static inline size_t ring_capacity_c2(void) {
static size_t g_cap = 0;
if (__builtin_expect(g_cap == 0, 0)) {
const char* e = getenv("HAKMEM_TINY_HOT_RING_C2");
g_cap = (e && *e) ? (size_t)atoi(e) : 128; // Default: 128
// Round up to power of 2 (for fast modulo)
if (g_cap < 32) g_cap = 32;
if (g_cap > 256) g_cap = 256;
// Ensure power of 2
size_t pow2 = 32;
while (pow2 < g_cap) pow2 *= 2;
g_cap = pow2;
#if !HAKMEM_BUILD_RELEASE
fprintf(stderr, "[Ring-INIT] C2 capacity = %zu (power of 2)\n", g_cap);
fflush(stderr);
#endif
}
return g_cap;
}
// C3 capacity (default: 128)
static inline size_t ring_capacity_c3(void) {
static size_t g_cap = 0;
if (__builtin_expect(g_cap == 0, 0)) {
const char* e = getenv("HAKMEM_TINY_HOT_RING_C3");
g_cap = (e && *e) ? (size_t)atoi(e) : 128; // Default: 128
// Round up to power of 2
if (g_cap < 32) g_cap = 32;
if (g_cap > 256) g_cap = 256;
size_t pow2 = 32;
while (pow2 < g_cap) pow2 *= 2;
g_cap = pow2;
#if !HAKMEM_BUILD_RELEASE
fprintf(stderr, "[Ring-INIT] C3 capacity = %zu (power of 2)\n", g_cap);
fflush(stderr);
#endif
}
return g_cap;
}
// Cascade enable flag (default: 0, OFF)
static inline int ring_cascade_enabled(void) {
static int g_enable = -1;
if (__builtin_expect(g_enable == -1, 0)) {
const char* e = getenv("HAKMEM_TINY_HOT_RING_CASCADE");
g_enable = (e && *e && *e != '0') ? 1 : 0;
#if !HAKMEM_BUILD_RELEASE
if (g_enable) {
fprintf(stderr, "[Ring-INIT] ring_cascade_enabled() = %d\n", g_enable);
fflush(stderr);
}
#endif
}
return g_enable;
}
// ============================================================================
// Ultra-Fast Pop/Push (1-2 instructions)
// ============================================================================
// Pop from ring (alloc fast path)
// Returns: BASE pointer (caller must convert to USER with +1)
static inline void* ring_cache_pop(int class_idx) {
TinyRingCache* ring = (class_idx == 2) ? &g_ring_cache_c2 : &g_ring_cache_c3;
// Empty check
if (__builtin_expect(ring->head == ring->tail, 0)) {
return NULL; // Empty
}
// Pop from head (consumer)
void* base = ring->slots[ring->head];
ring->head = (ring->head + 1) & ring->mask; // Fast modulo (power of 2)
return base; // Return BASE pointer
}
// Push to ring (free fast path)
// Input: BASE pointer (caller must pass BASE, not USER)
// Returns: 1=SUCCESS, 0=FULL
static inline int ring_cache_push(int class_idx, void* base) {
TinyRingCache* ring = (class_idx == 2) ? &g_ring_cache_c2 : &g_ring_cache_c3;
uint16_t next_tail = (ring->tail + 1) & ring->mask;
// Full check (leave 1 slot empty to distinguish full/empty)
if (__builtin_expect(next_tail == ring->head, 0)) {
return 0; // Full
}
// Push to tail (producer)
ring->slots[ring->tail] = base;
ring->tail = next_tail;
return 1; // SUCCESS
}
// ============================================================================
// Refill from TLS SLL (cascade, Phase 21-1-C)
// ============================================================================
// Forward declaration (defined in tiny_ring_cache.c)
int ring_refill_from_sll(int class_idx, int target_count);
// ============================================================================
// Init/Shutdown (called from hakmem_tiny.c)
// ============================================================================
void ring_cache_init(void);
void ring_cache_shutdown(void);
void ring_cache_print_stats(void);
#endif // HAK_FRONT_TINY_RING_CACHE_H
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