[gem5-dev] Change in gem5/gem5[master]: cpu: Fixes on the loop predictor part of LTAGE

Sun, 11 Nov 2018 14:45:01 -0800

Pau Cabre has uploaded this change for review. ( https://gem5-review.googlesource.com/c/public/gem5/+/14216 

Change subject: cpu: Fixes on the loop predictor part of LTAGE
......................................................................

cpu: Fixes on the loop predictor part of LTAGE

Fixed the following fields of the loop predictor entries as described on
the LTAGE paper:
 - Age counter (it was 3 bits and it should be 8 bits)
 - Tag (it was 16 bits and it should be 14 bits). Also some times it used
   int variables and some times uint16_t, leading to wrong behaviour
 - Confidence counter (it was 2 bits ins some parts of the code and 3 bits
   in some other parts. It should be 2 bits)
 - Iteration counters (they were 16 bits and they should be 14 bits)
All the new sizes are now configurable

Change-Id: I8884c7454c1e510b65160eb4d5749d3259d34096
Signed-off-by: Pau Cabre <[email protected]>
---
M src/cpu/pred/BranchPredictor.py
M src/cpu/pred/ltage.cc
M src/cpu/pred/ltage.hh
3 files changed, 61 insertions(+), 11 deletions(-)




diff --git a/src/cpu/pred/BranchPredictor.py  
b/src/cpu/pred/BranchPredictor.py

index 1b400c2..0b6aba4 100644
--- a/src/cpu/pred/BranchPredictor.py
+++ b/src/cpu/pred/BranchPredictor.py
@@ -102,3 +102,9 @@
     maxHist = Param.Unsigned(640, "Maximum history size of LTAGE")
     minTagWidth = Param.Unsigned(7, "Minimum tag size in tag tables")


+    loopTableAgeBits = Param.Unsigned(8, "Number of age bits per loop  
entry")

+    loopTableConfidenceBits = Param.Unsigned(2,
+            "Number of confidence bits per loop entry")

+    loopTableTagBits = Param.Unsigned(14, "Number of tag bits per loop  
entry")
+    loopTableIterBits = Param.Unsigned(14, "Nuber of iteration bits per  
loop")

+
diff --git a/src/cpu/pred/ltage.cc b/src/cpu/pred/ltage.cc
index 251fb2e..75ebabc 100644
--- a/src/cpu/pred/ltage.cc
+++ b/src/cpu/pred/ltage.cc
@@ -58,8 +58,20 @@
     minHist(params->minHist),
     maxHist(params->maxHist),
     minTagWidth(params->minTagWidth),
+    loopTableAgeBits(params->loopTableAgeBits),
+    loopTableConfidenceBits(params->loopTableConfidenceBits),
+    loopTableTagBits(params->loopTableTagBits),
+    loopTableIterBits(params->loopTableIterBits),
+    confidenceThreshold((1 << loopTableConfidenceBits) - 1),
+    loopTagMask((1 << loopTableTagBits) - 1),
+    loopNumIterMask((1 << loopTableIterBits) - 1),
     threadHistory(params->numThreads)
 {
+    // we use uint16_t type for these vales, so they cannot be more than
+    // 16 bits
+    assert(loopTableTagBits <= 16);
+    assert(loopTableIterBits <= 16);
+
     assert(params->histBufferSize > params->maxHist * 2);
     useAltPredForNewlyAllocated = 0;
     logTick = 19;
@@ -204,6 +216,20 @@
     }
 }

+// Up-down unsigned saturating counter
+void
+LTAGE::unsignedCtrUpdate(uint8_t & ctr, bool up, unsigned nbits)
+{
+    assert(nbits <= sizeof(uint8_t) << 3);
+    if (up) {
+        if (ctr < ((1 << nbits) - 1))
+            ctr++;
+    } else {
+        if (ctr)
+            ctr--;
+    }
+}
+
 // Bimodal prediction
 bool
 LTAGE::getBimodePred(Addr pc, BranchInfo* bi) const
@@ -239,12 +265,13 @@
     bi->loopHit = -1;
     bi->loopPredValid = false;
     bi->loopIndex = lindex(pc);
-    bi->loopTag = ((pc) >> (logSizeLoopPred - 2));
+    bi->loopTag = ((pc) >> (logSizeLoopPred - 2)) & loopTagMask;

     for (int i = 0; i < 4; i++) {
         if (ltable[bi->loopIndex + i].tag == bi->loopTag) {
             bi->loopHit = i;

-            bi->loopPredValid = (ltable[bi->loopIndex + i].confidence >=  
3);

+            bi->loopPredValid =

+                ltable[bi->loopIndex + i].confidence ==  
confidenceThreshold;

             bi->currentIter = ltable[bi->loopIndex + i].currentIterSpec;
             if (ltable[bi->loopIndex + i].currentIterSpec + 1 ==
                 ltable[bi->loopIndex + i].numIter) {
@@ -265,7 +292,8 @@
         if (taken != ltable[index].dir) {
             ltable[index].currentIterSpec = 0;
         } else {
-            ltable[index].currentIterSpec++;
+            ltable[index].currentIterSpec =
+                (ltable[index].currentIterSpec + 1) & loopNumIterMask;
         }
     }
 }
@@ -286,12 +314,12 @@
                 return;
             } else if (bi->loopPred != bi->tagePred) {
                 DPRINTF(LTage, "Loop Prediction success:%lx\n",pc);
-                if (ltable[idx].age < 7)
-                    ltable[idx].age++;
+                unsignedCtrUpdate(ltable[idx].age, true, loopTableAgeBits);
             }
         }

-        ltable[idx].currentIter++;
+        ltable[idx].currentIter =
+            (ltable[idx].currentIter + 1) & loopNumIterMask;
         if (ltable[idx].currentIter > ltable[idx].numIter) {
             ltable[idx].confidence = 0;
             if (ltable[idx].numIter != 0) {
@@ -306,9 +334,8 @@
             if (ltable[idx].currentIter == ltable[idx].numIter) {

                 DPRINTF(LTage, "Loop End predicted successfully:%lx\n",  
pc);


-                if (ltable[idx].confidence < 7) {
-                    ltable[idx].confidence++;
-                }
+                unsignedCtrUpdate(ltable[idx].confidence, true,
+                                  loopTableConfidenceBits);
                 //just do not predict when the loop count is 1 or 2
                 if (ltable[idx].numIter < 3) {
                     // free the entry
@@ -346,7 +373,7 @@
                 ltable[idx].dir = !taken;
                 ltable[idx].tag = bi->loopTag;
                 ltable[idx].numIter = 0;
-                ltable[idx].age = 7;
+                ltable[idx].age = (1 << loopTableAgeBits) - 1;
                 ltable[idx].confidence = 0;
                 ltable[idx].currentIter = 1;
                 break;
diff --git a/src/cpu/pred/ltage.hh b/src/cpu/pred/ltage.hh
index 60c3467..f605fa6 100644
--- a/src/cpu/pred/ltage.hh
+++ b/src/cpu/pred/ltage.hh
@@ -144,7 +144,7 @@
         int altBank;
         int altBankIndex;
         int bimodalIndex;
-        int loopTag;
+        uint16_t loopTag;
         uint16_t currentIter;

         bool tagePred;
@@ -247,6 +247,15 @@
     void ctrUpdate(int8_t & ctr, bool taken, int nbits);

     /**
+     * Updates an unsigned counter based on up/down parameter
+     * @param ctr Reference to counter to update.

+     * @param up Boolean indicating if the counter is  
incremented/decremented

+     * If true it is incremented, if false it is decremented
+     * @param nbits Counter width.
+     */
+    void unsignedCtrUpdate(uint8_t & ctr, bool taken, unsigned nbits);
+
+    /**
      * Get a branch prediction from the bimodal
      * predictor.
      * @param pc The unshifted branch PC.
@@ -363,6 +372,14 @@
     const unsigned minHist;
     const unsigned maxHist;
     const unsigned minTagWidth;
+    const unsigned loopTableAgeBits;
+    const unsigned loopTableConfidenceBits;
+    const unsigned loopTableTagBits;
+    const unsigned loopTableIterBits;
+
+    const uint8_t confidenceThreshold;
+    const uint16_t loopTagMask;
+    const uint16_t loopNumIterMask;

     BimodalEntry *btable;
     TageEntry **gtable;

--
To view, visit https://gem5-review.googlesource.com/c/public/gem5/+/14216

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Gerrit-Project: public/gem5
Gerrit-Branch: master
Gerrit-Change-Id: I8884c7454c1e510b65160eb4d5749d3259d34096
Gerrit-Change-Number: 14216
Gerrit-PatchSet: 1
Gerrit-Owner: Pau Cabre <[email protected]>
Gerrit-MessageType: newchange
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