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Disable repeated recursion on Ab_BR in ReLAPACK xGBTRF 

due to crashes in LAPACK tests
tags/v0.3.6^2
Martin Kroeker GitHub 6 years ago
parent
91943b7325
commit
1036299da0
4 changed files with 27 additions and 15 deletions
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  1. +3
    -1
      relapack/src/cgbtrf.c
  2. +4
    -2
      relapack/src/dgbtrf.c
  3. +13
    -7
      relapack/src/sgbtrf.c
  4. +7
    -5
      relapack/src/zgbtrf.c

+ 3
- 1
relapack/src/cgbtrf.c View File

@@ -221,7 +221,9 @@ static void RELAPACK_cgbtrf_rec(
}

// recursion(Ab_BR, ipiv_B)
RELAPACK_cgbtrf_rec(&m2, &n2, kl, ku, Ab_BR, ldAb, ipiv_B, Workl, ldWorkl, Worku, ldWorku, info);
//RELAPACK_cgbtrf_rec(&m2, &n2, kl, ku, Ab_BR, ldAb, ipiv_B, Workl, ldWorkl, Worku, ldWorku, info);
LAPACK(cgbtf2)(&m2, &n2, kl, ku, Ab_BR, ldAb, ipiv_B, info);
if (*info)
*info += n1;
// shift pivots


+ 4
- 2
relapack/src/dgbtrf.c View File

@@ -1,5 +1,6 @@
#include "relapack.h"
#include "stdlib.h"
#include <stdlib.h>
#include <stdio.h>
static void RELAPACK_dgbtrf_rec(const blasint *, const blasint *, const blasint *,
const blasint *, double *, const blasint *, blasint *, double *, const blasint *, double *,
const blasint *, blasint *);
@@ -218,7 +219,8 @@ static void RELAPACK_dgbtrf_rec(
}

// recursion(Ab_BR, ipiv_B)
RELAPACK_dgbtrf_rec(&m2, &n2, kl, ku, Ab_BR, ldAb, ipiv_B, Workl, ldWorkl, Worku, ldWorku, info);
// RELAPACK_dgbtrf_rec(&m2, &n2, kl, ku, Ab_BR, ldAb, ipiv_B, Workl, ldWorkl, Worku, ldWorku, info);
LAPACK(dgbtf2)(&m2, &n2, kl, ku, Ab_BR, ldAb, ipiv_B, info);
if (*info)
*info += n1;
// shift pivots


+ 13
- 7
relapack/src/sgbtrf.c View File

@@ -27,7 +27,7 @@ void RELAPACK_sgbtrf(
*info = -3;
else if (*ku < 0)
*info = -4;
else if (*ldAb < 2 * *kl + *ku + 1)
else if (*ldAb < 2 * *kl + *ku + 1)
*info = -6;
if (*info) {
const blasint minfo = -*info;
@@ -55,15 +55,16 @@ void RELAPACK_sgbtrf(

// Allocate work space
const blasint n1 = SREC_SPLIT(*n);
const blasint mWorkl = (kv > n1) ? MAX(1, *m - *kl) : kv;
const blasint nWorkl = (kv > n1) ? n1 : kv;
const blasint mWorku = (*kl > n1) ? n1 : *kl;
const blasint nWorku = (*kl > n1) ? MAX(0, *n - *kl) : *kl;
const blasint mWorkl = abs( (kv > n1) ? MAX(1, *m - *kl) : kv );
const blasint nWorkl = abs( (kv > n1) ? n1 : kv );
const blasint mWorku = abs( (*kl > n1) ? n1 : *kl );
const blasint nWorku = abs( (*kl > n1) ? MAX(0, *n - *kl) : *kl );
float *Workl = malloc(mWorkl * nWorkl * sizeof(float));
float *Worku = malloc(mWorku * nWorku * sizeof(float));
LAPACK(slaset)("L", &mWorkl, &nWorkl, ZERO, ZERO, Workl, &mWorkl);
LAPACK(slaset)("U", &mWorku, &nWorku, ZERO, ZERO, Worku, &mWorku);


// Recursive kernel
RELAPACK_sgbtrf_rec(m, n, kl, ku, Ab, ldAb, ipiv, Workl, &mWorkl, Worku, &mWorku, info);

@@ -81,6 +82,7 @@ static void RELAPACK_sgbtrf_rec(
blasint *info
) {


if (*n <= MAX(CROSSOVER_SGBTRF, 1)) {
// Unblocked
LAPACK(sgbtf2)(m, n, kl, ku, Ab, ldAb, ipiv, info);
@@ -127,7 +129,7 @@ static void RELAPACK_sgbtrf_rec(
float *const A_BR = A + *ldA * n1 + m1;

// ipiv_T
// ipiv_B
// ipiv_B
blasint *const ipiv_T = ipiv;
blasint *const ipiv_B = ipiv + n1;

@@ -155,6 +157,7 @@ static void RELAPACK_sgbtrf_rec(
float *const A_BRbl = A_BR + m21;
float *const A_BRbr = A_BR + *ldA * n21 + m21;


// recursion(Ab_L, ipiv_T)
RELAPACK_sgbtrf_rec(m, &n1, kl, ku, Ab_L, ldAb, ipiv_T, Workl, ldWorkl, Worku, ldWorku, info);

@@ -216,8 +219,11 @@ static void RELAPACK_sgbtrf_rec(
}
}


// recursion(Ab_BR, ipiv_B)
RELAPACK_sgbtrf_rec(&m2, &n2, kl, ku, Ab_BR, ldAb, ipiv_B, Workl, ldWorkl, Worku, ldWorku, info);
//cause of infinite recursion here ?
// RELAPACK_sgbtrf_rec(&m2, &n2, kl, ku, Ab_BR, ldAb, ipiv_B, Workl, ldWorkl, Worku, ldWorku, info);
LAPACK(sgbtf2)(&m2, &n2, kl, ku, Ab_BR, ldAb, ipiv_B, info);
if (*info)
*info += n1;
// shift pivots


+ 7
- 5
relapack/src/zgbtrf.c View File

@@ -56,10 +56,10 @@ void RELAPACK_zgbtrf(

// Allocate work space
const blasint n1 = ZREC_SPLIT(*n);
const blasint mWorkl = (kv > n1) ? MAX(1, *m - *kl) : kv;
const blasint nWorkl = (kv > n1) ? n1 : kv;
const blasint mWorku = (*kl > n1) ? n1 : *kl;
const blasint nWorku = (*kl > n1) ? MAX(0, *n - *kl) : *kl;
const blasint mWorkl = abs ( (kv > n1) ? MAX(1, *m - *kl) : kv);
const blasint nWorkl = abs ( (kv > n1) ? n1 : kv);
const blasint mWorku = abs ( (*kl > n1) ? n1 : *kl);
const blasint nWorku = abs ( (*kl > n1) ? MAX(0, *n - *kl) : *kl);
double *Workl = malloc(mWorkl * nWorkl * 2 * sizeof(double));
double *Worku = malloc(mWorku * nWorku * 2 * sizeof(double));
LAPACK(zlaset)("L", &mWorkl, &nWorkl, ZERO, ZERO, Workl, &mWorkl);
@@ -221,7 +221,9 @@ static void RELAPACK_zgbtrf_rec(
}

// recursion(Ab_BR, ipiv_B)
RELAPACK_zgbtrf_rec(&m2, &n2, kl, ku, Ab_BR, ldAb, ipiv_B, Workl, ldWorkl, Worku, ldWorku, info);
// RELAPACK_zgbtrf_rec(&m2, &n2, kl, ku, Ab_BR, ldAb, ipiv_B, Workl, ldWorkl, Worku, ldWorku, info);
LAPACK(zgbtf2)(&m2, &n2, kl, ku, Ab_BR, ldAb, ipiv_B, info);
if (*info)
*info += n1;
// shift pivots


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