From: Luke Kenneth Casson Leighton Date: Wed, 11 Oct 2023 11:05:59 +0000 (+0100) Subject: add stub (non-working) matrix multiply using maddld X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=f343bb1388718dfdab7e7c8f49e286bf662a6d85;p=openpower-isa.git add stub (non-working) matrix multiply using maddld --- diff --git a/src/openpower/decoder/isa/test_caller_svp64_matrix.py b/src/openpower/decoder/isa/test_caller_svp64_matrix.py index aa6401aa..15f874e4 100644 --- a/src/openpower/decoder/isa/test_caller_svp64_matrix.py +++ b/src/openpower/decoder/isa/test_caller_svp64_matrix.py @@ -16,6 +16,72 @@ class DecoderTestCase(FHDLTestCase): for i in range(32): self.assertEqual(sim.gpr(i), SelectableInt(expected[i], 64)) + def test_sv_maddld_remap1(self): + """perform an integer matrix multiply using maddld + lst = ["svshape 2, 2, 3, 0, 0", + "svremap 31, 1, 2, 3, 0, 0, 0", + "sv.maddld *0, *8, *16, *0" + ] + REMAP maddld RT, RA, RB, RC + """ + lst = SVP64Asm(["svshape 2, 2, 3, 0, 0", + "svremap 31, 1, 2, 3, 0, 0, 0", + "sv.maddld *0, *16, *32, *0" + ]) + lst = list(lst) + + gprs = [0] * 64 + # 3x2 matrix + X1 = [[1, 2, 3], + [3, 4, 5], + ] + # 2x3 matrix + Y1 = [[6, 7], + [8, 9], + [10, 11], + ] + + X = X1 + Y = Y1 + + xf = reduce(operator.add, X) + yf = reduce(operator.add, Y) + print("flattened X,Y") + print("\t", xf) + print("\t", yf) + + # and create a linear result2, same scheme + #result1 = [0] * (ydim1*xdim2) + + res = [] + # store FPs + for i, x in enumerate(xf): + gprs[i+16] = fp64toselectable(float(x)) # X matrix + for i, y in enumerate(yf): + gprs[i+32] = fp64toselectable(float(y)) # Y matrix + continue + # t = DOUBLE2SINGLE(fp64toselectable(t)) # convert to Power single + # u = DOUBLE2SINGLE(fp64toselectable(u)) # from double + #res.append((t, u)) + # print ("FFT", i, "in", a, b, "coeff", c, "mul", + # mul, "res", t, u) + + with Program(lst, bigendian=False) as program: + sim = self.run_tst_program(program, initial_regs=gprs) + print("spr svshape0", sim.spr['SVSHAPE0']) + print(" xdimsz", sim.spr['SVSHAPE0'].xdimsz) + print(" ydimsz", sim.spr['SVSHAPE0'].ydimsz) + print(" zdimsz", sim.spr['SVSHAPE0'].zdimsz) + print("spr svshape1", sim.spr['SVSHAPE1']) + print("spr svshape2", sim.spr['SVSHAPE2']) + print("spr svshape3", sim.spr['SVSHAPE3']) + for i in range(4): + print("i", i, float(sim.fpr(i))) + # confirm that the results are as expected + # for i, (t, u) in enumerate(res): + # self.assertEqual(sim.fpr(i+2), t) + # self.assertEqual(sim.fpr(i+6), u) + def test_sv_remap1(self): """>>> lst = ["svshape 2, 2, 3, 0, 0", "svremap 31, 1, 2, 3, 0, 0, 0",