source: icGREP/icgrep-devel/icgrep/kernels/s2p_kernel.cpp @ 5074

Last change on this file since 5074 was 5074, checked in by cameron, 3 years ago

Kernel infrastructure: move common logic into KernelBuilder? base class; demo linking in wc

File size: 7.7 KB
Line 
1/*
2 *  Copyright (c) 2016 International Characters.
3 *  This software is licensed to the public under the Open Software License 3.0.
4 */
5#include "s2p_kernel.h"
6#include <kernels/kernel.h>
7#include <IDISA/idisa_builder.h>
8#include <llvm/Support/raw_ostream.h>
9
10namespace kernel {
11using namespace llvm;
12
13const int PACK_LANES = 1;
14
15void s2p_step(IDISA::IDISA_Builder * iBuilder, Value * s0, Value * s1, Value * hi_mask, unsigned shift, Value * &p0, Value * &p1) {
16    Value * t0 = nullptr;
17    Value * t1 = nullptr;
18    if ((iBuilder->getBitBlockWidth() == 256) && (PACK_LANES == 2)) {
19        Value * x0 = iBuilder->esimd_mergel(128, s0, s1);
20        Value * x1 = iBuilder->esimd_mergeh(128, s0, s1);
21        t0 = iBuilder->hsimd_packh_in_lanes(PACK_LANES, 16, x0, x1);
22        t1 = iBuilder->hsimd_packl_in_lanes(PACK_LANES, 16, x0, x1);
23    }
24    else {
25        t0 = iBuilder->hsimd_packh(16, s0, s1);
26        t1 = iBuilder->hsimd_packl(16, s0, s1);
27    }
28    p0 = iBuilder->simd_if(1, hi_mask, t0, iBuilder->simd_srli(16, t1, shift));
29    p1 = iBuilder->simd_if(1, hi_mask, iBuilder->simd_slli(16, t0, shift), t1);
30}
31
32void s2p(IDISA::IDISA_Builder * iBuilder, Value * input[], Value * output[]) {
33    Value * bit00224466[4];
34    Value * bit11335577[4];
35
36    for (unsigned i = 0; i < 4; i++) {
37        Value * s0 = input[2 * i];
38        Value * s1 = input[2 * i + 1];
39        s2p_step(iBuilder, s0, s1, iBuilder->simd_himask(2), 1, bit00224466[i], bit11335577[i]);
40    }
41    Value * bit00004444[2];
42    Value * bit22226666[2];
43    Value * bit11115555[2];
44    Value * bit33337777[2];
45    for (unsigned j = 0; j<2; j++) {
46        s2p_step(iBuilder, bit00224466[2*j], bit00224466[2*j+1],
47                 iBuilder->simd_himask(4), 2, bit00004444[j], bit22226666[j]);
48        s2p_step(iBuilder, bit11335577[2*j], bit11335577[2*j+1],
49                 iBuilder->simd_himask(4), 2, bit11115555[j], bit33337777[j]);
50    }
51    s2p_step(iBuilder, bit00004444[0], bit00004444[1], iBuilder->simd_himask(8), 4, output[0], output[4]);
52    s2p_step(iBuilder, bit11115555[0], bit11115555[1], iBuilder->simd_himask(8), 4, output[1], output[5]);
53    s2p_step(iBuilder, bit22226666[0], bit22226666[1], iBuilder->simd_himask(8), 4, output[2], output[6]);
54    s2p_step(iBuilder, bit33337777[0], bit33337777[1], iBuilder->simd_himask(8), 4, output[3], output[7]);
55}
56
57/* Alternative transposition model, but small field width packs are problematic. */
58#if 0
59void s2p_ideal(IDISA::IDISA_Builder * iBuilder, Value * input[], Value * output[]) {
60    Value * hi_nybble[4];
61    Value * lo_nybble[4];
62    for (unsigned i = 0; i<4; i++) {
63        Value * s0 = input[2*i];
64        Value * s1 = input[2*i+1];
65        hi_nybble[i] = iBuilder->hsimd_packh(8, s0, s1);
66        lo_nybble[i] = iBuilder->hsimd_packl(8, s0, s1);
67    }
68    Value * pair01[2];
69    Value * pair23[2];
70    Value * pair45[2];
71    Value * pair67[2];
72    for (unsigned i = 0; i<2; i++) {
73        pair01[i] = iBuilder->hsimd_packh(4, hi_nybble[2*i], hi_nybble[2*i+1]);
74        pair23[i] = iBuilder->hsimd_packl(4, hi_nybble[2*i], hi_nybble[2*i+1]);
75        pair45[i] = iBuilder->hsimd_packh(4, lo_nybble[2*i], lo_nybble[2*i+1]);
76        pair67[i] = iBuilder->hsimd_packl(4, lo_nybble[2*i], lo_nybble[2*i+1]);
77    }
78    output[0] = iBuilder->hsimd_packh(2, pair01[0], pair01[1]);
79    output[1] = iBuilder->hsimd_packl(2, pair01[0], pair01[1]);
80    output[2] = iBuilder->hsimd_packh(2, pair23[0], pair23[1]);
81    output[3] = iBuilder->hsimd_packl(2, pair23[0], pair23[1]);
82    output[4] = iBuilder->hsimd_packh(2, pair45[0], pair45[1]);
83    output[5] = iBuilder->hsimd_packl(2, pair45[0], pair45[1]);
84    output[6] = iBuilder->hsimd_packh(2, pair67[0], pair67[1]);
85    output[7] = iBuilder->hsimd_packl(2, pair67[0], pair67[1]);
86}
87#endif
88   
89   
90#if 0
91
92
93void generateS2P_16Kernel(Module *, IDISA::IDISA_Builder * iBuilder, KernelBuilder * kBuilder) {
94    kBuilder->addInputStream(16, "unit_pack");
95    for(unsigned i = 0; i < 16; i++) {
96            kBuilder->addOutputStream(1);
97    }
98    kBuilder->prepareFunction();
99
100    Value * ptr = kBuilder->getInputStream(0);
101
102    Value * lo[8];
103    Value * hi[8];
104    for (unsigned i = 0; i < 8; i++) {
105        Value * s0 = iBuilder->CreateBlockAlignedLoad(ptr, {iBuilder->getInt32(0), iBuilder->getInt32(2 * i)});
106        Value * s1 = iBuilder->CreateBlockAlignedLoad(ptr, {iBuilder->getInt32(0), iBuilder->getInt32(2 * i + 1)});
107        lo[i] = iBuilder->hsimd_packl(16, s0, s1);
108        hi[i] = iBuilder->hsimd_packh(16, s0, s1);
109    }
110
111    Value * output[16];
112    s2p(iBuilder, lo, output);
113    s2p(iBuilder, hi, output + 8);
114    for (unsigned j = 0; j < 16; j++) {
115        iBuilder->CreateBlockAlignedStore(output[j], kBuilder->getOutputStream(j));
116    }
117    kBuilder->finalize();
118}
119   
120#endif
121   
122void s2pKernel::generateFinalBlockMethod() {
123    /* Prepare the s2p final block function:
124     assumption: if remaining bytes is greater than 0, it is safe to read a full block of bytes.
125     if remaining bytes is zero, no read should be performed (e.g. for mmapped buffer).
126     */
127    IDISA::IDISA_Builder::InsertPoint savePoint = iBuilder->saveIP();
128    Module * m = iBuilder->getModule();
129    Function * doBlockFunction = m->getFunction(mKernelName + doBlock_suffix);
130    Function * finalBlockFunction = m->getFunction(mKernelName + finalBlock_suffix);
131    iBuilder->SetInsertPoint(BasicBlock::Create(iBuilder->getContext(), "fb_entry", finalBlockFunction, 0));
132   
133    Value * self = getParameter(finalBlockFunction, "self");
134    Value * remainingBytes = getParameter(finalBlockFunction, "remainingBytes");
135    Value * byteStreamBlock_ptr = getParameter(finalBlockFunction, "byteStream");
136    Value * basisBitsBlock_ptr = getParameter(finalBlockFunction, "basisBits");
137   
138    BasicBlock * finalPartialBlock = BasicBlock::Create(iBuilder->getContext(), "partial", finalBlockFunction, 0);
139    BasicBlock * finalEmptyBlock = BasicBlock::Create(iBuilder->getContext(), "empty", finalBlockFunction, 0);
140    BasicBlock * exitBlock = BasicBlock::Create(iBuilder->getContext(), "exit", finalBlockFunction, 0);
141   
142    Value * emptyBlockCond = iBuilder->CreateICmpEQ(remainingBytes, ConstantInt::get(iBuilder->getInt64Ty(), 0));
143    iBuilder->CreateCondBr(emptyBlockCond, finalEmptyBlock, finalPartialBlock);
144    iBuilder->SetInsertPoint(finalPartialBlock);
145    iBuilder->CreateCall(doBlockFunction, {self, byteStreamBlock_ptr, basisBitsBlock_ptr});
146   
147    iBuilder->CreateBr(exitBlock);
148   
149    iBuilder->SetInsertPoint(finalEmptyBlock);
150    iBuilder->CreateStore(Constant::getNullValue(basisBitsBlock_ptr->getType()->getPointerElementType()), basisBitsBlock_ptr);
151    iBuilder->CreateBr(exitBlock);
152   
153    iBuilder->SetInsertPoint(exitBlock);
154    iBuilder->CreateRetVoid();
155    iBuilder->restoreIP(savePoint);
156}
157
158   
159void s2pKernel::generateDoBlockMethod() {
160    IDISA::IDISA_Builder::InsertPoint savePoint = iBuilder->saveIP();
161    Module * m = iBuilder->getModule();
162
163    Function * doBlockFunction = m->getFunction(mKernelName + doBlock_suffix);
164   
165    iBuilder->SetInsertPoint(BasicBlock::Create(iBuilder->getContext(), "entry", doBlockFunction, 0));
166   
167    Value * byteStreamBlock_ptr = getParameter(doBlockFunction, "byteStream");
168    Value * basisBitsBlock_ptr = getParameter(doBlockFunction, "basisBits");
169    Value * s_bytepack[8];
170    for (unsigned i = 0; i < 8; i++) {
171        s_bytepack[i] = iBuilder->CreateBlockAlignedLoad(byteStreamBlock_ptr, {iBuilder->getInt32(0), iBuilder->getInt32(0), iBuilder->getInt32(i)});
172    }
173    Value * p_bitblock[8];
174    s2p(iBuilder, s_bytepack, p_bitblock);
175    for (unsigned j = 0; j < 8; ++j) {
176        iBuilder->CreateBlockAlignedStore(p_bitblock[j], basisBitsBlock_ptr, {iBuilder->getInt32(0), iBuilder->getInt32(j)});
177    }
178    iBuilder->CreateRetVoid();
179    iBuilder->restoreIP(savePoint);
180}
181
182   
183}
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