[Switch][Default][Value]
-help no no
-example no no
-src_moddeffn /home/aenima1891/tutorial/numeri/model_architecture/numeri.ci.mdef
-src_ts2cbfn .cont.
-src_mixwfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/mixture_weights
-src_meanfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/means
-src_varfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/variances
-fullvar no no
-src_tmatfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/transition_matrices
-dest_moddeffn /home/aenima1891/tutorial/numeri/model_architecture/numeri.untied.mdef
-dest_ts2cbfn .cont.
-dest_mixwfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/mixture_weights
-dest_meanfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/means
-dest_varfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/variances
-dest_tmatfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/transition_matrices
-feat 1s_12c_12d_3p_12dd 1s_12c_12d_3p_12dd
-ceplen 13 13
-cepwin 0 0
INFO: main.c(280): Reading src /home/aenima1891/tutorial/numeri/model_architecture/numeri.ci.mdef
INFO: model_def_io.c(587): Model definition info:
INFO: model_def_io.c(588): 18 total models defined (18 base, 0 tri)
INFO: model_def_io.c(589): 72 total states
INFO: model_def_io.c(590): 54 total tied states
INFO: model_def_io.c(591): 54 total tied CI states
INFO: model_def_io.c(592): 18 total tied transition matrices
INFO: model_def_io.c(593): 4 max state/model
INFO: model_def_io.c(594): 4 min state/model
INFO: main.c(297): Generating continous ts2cb mapping
INFO: main.c(312): Reading src /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/mixture_weights
INFO: s3mixw_io.c(116): Read /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/mixture_weights [54x1x1 array]
INFO: main.c(321): Reading src /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/transition_matrices
INFO: s3tmat_io.c(115): Read /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/transition_matrices [18x3x4 array]
INFO: main.c(331): Reading src /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/means
INFO: s3gau_io.c(166): Read /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/means [54x1x1 array]
INFO: main.c(356): Reading src /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/variances
INFO: s3gau_io.c(166): Read /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/variances [54x1x1 array]
INFO: main.c(398): Reading dest /home/aenima1891/tutorial/numeri/model_architecture/numeri.untied.mdef
INFO: model_def_io.c(587): Model definition info:
INFO: model_def_io.c(588): 76 total models defined (18 base, 58 tri)
INFO: model_def_io.c(589): 304 total states
INFO: model_def_io.c(590): 228 total tied states
INFO: model_def_io.c(591): 54 total tied CI states
INFO: model_def_io.c(592): 18 total tied transition matrices
INFO: model_def_io.c(593): 4 max state/model
INFO: model_def_io.c(594): 4 min state/model
INFO: main.c(415): Generating continous ts2cb mapping
INFO: main.c(433): Calculating initial model parameters
INFO: main.c(438): Alloc 18x3x4 dest tmat
INFO: main.c(451): Alloc 228x1x1 dest mixw
INFO: main.c(464): Alloc 228x1x1 dest mean and var
AH <- AH : [tm 0 += 0] [mx 0(0) += 0][mg 0(0) <- 0][mx 1(1) += 1][mg 1(1) <- 1][mx 2(2) += 2][mg 2(2) <- 2]
D <- D : [tm 1 += 1] [mx 3(0) += 3][mg 3(0) <- 3][mx 4(1) += 4][mg 4(1) <- 4][mx 5(2) += 5][mg 5(2) <- 5]
DZ <- DZ : [tm 2 += 2] [mx 6(0) += 6][mg 6(0) <- 6][mx 7(1) += 7][mg 7(1) <- 7][mx 8(2) += 8][mg 8(2) <- 8]
E <- E : [tm 3 += 3] [mx 9(0) += 9][mg 9(0) <- 9][mx 10(1) += 10][mg 10(1) <- 10][mx 11(2) += 11][mg 11(2) <- 11]
EH <- EH : [tm 4 += 4] [mx 12(0) += 12][mg 12(0) <- 12][mx 13(1) += 13][mg 13(1) <- 13][mx 14(2) += 14][mg 14(2) <- 14]
HOH <- HOH : [tm 5 += 5] [mx 15(0) += 15][mg 15(0) <- 15][mx 16(1) += 16][mg 16(1) <- 16][mx 17(2) += 17][mg 17(2) <- 17]
I <- I : [tm 6 += 6] [mx 18(0) += 18][mg 18(0) <- 18][mx 19(1) += 19][mg 19(1) <- 19][mx 20(2) += 20][mg 20(2) <- 20]
KW <- KW : [tm 7 += 7] [mx 21(0) += 21][mg 21(0) <- 21][mx 22(1) += 22][mg 22(1) <- 22][mx 23(2) += 23][mg 23(2) <- 23]
KWE <- KWE : [tm 8 += 8] [mx 24(0) += 24][mg 24(0) <- 24][mx 25(1) += 25][mg 25(1) <- 25][mx 26(2) += 26][mg 26(2) <- 26]
N <- N : [tm 9 += 9] [mx 27(0) += 27][mg 27(0) <- 27][mx 28(1) += 28][mg 28(1) <- 28][mx 29(2) += 29][mg 29(2) <- 29]
O <- O : [tm 10 += 10] [mx 30(0) += 30][mg 30(0) <- 30][mx 31(1) += 31][mg 31(1) <- 31][mx 32(2) += 32][mg 32(2) <- 32]
R <- R : [tm 11 += 11] [mx 33(0) += 33][mg 33(0) <- 33][mx 34(1) += 34][mg 34(1) <- 34][mx 35(2) += 35][mg 35(2) <- 35]
S <- S : [tm 12 += 12] [mx 36(0) += 36][mg 36(0) <- 36][mx 37(1) += 37][mg 37(1) <- 37][mx 38(2) += 38][mg 38(2) <- 38]
SIL <- SIL : [tm 13 += 13] [mx 39(0) += 39][mg 39(0) <- 39][mx 40(1) += 40][mg 40(1) <- 40][mx 41(2) += 41][mg 41(2) <- 41]
T <- T : [tm 14 += 14] [mx 42(0) += 42][mg 42(0) <- 42][mx 43(1) += 43][mg 43(1) <- 43][mx 44(2) += 44][mg 44(2) <- 44]
TS <- TS : [tm 15 += 15] [mx 45(0) += 45][mg 45(0) <- 45][mx 46(1) += 46][mg 46(1) <- 46][mx 47(2) += 47][mg 47(2) <- 47]
U <- U : [tm 16 += 16] [mx 48(0) += 48][mg 48(0) <- 48][mx 49(1) += 49][mg 49(1) <- 49][mx 50(2) += 50][mg 50(2) <- 50]
V <- V : [tm 17 += 17] [mx 51(0) += 51][mg 51(0) <- 51][mx 52(1) += 52][mg 52(1) <- 52][mx 53(2) += 53][mg 53(2) <- 53]
AH KW T i <- AH : [mx 54(0) += 0][mg 54(0) <- 0][mx 55(1) += 1][mg 55(1) <- 1][mx 56(2) += 2][mg 56(2) <- 2]
D E U b <- D : [mx 57(0) += 3][mg 57(0) <- 3][mx 58(1) += 4][mg 58(1) <- 4][mx 59(2) += 5][mg 59(2) <- 5]
D SIL U b <- D : [mx 60(0) += 3][mg 60(0) <- 3][mx 61(1) += 4][mg 61(1) <- 4][mx 62(2) += 5][mg 62(2) <- 5]
DZ O EH b <- DZ : [mx 63(0) += 6][mg 63(0) <- 6][mx 64(1) += 7][mg 64(1) <- 7][mx 65(2) += 8][mg 65(2) <- 8]
DZ SIL EH b <- DZ : [mx 66(0) += 6][mg 66(0) <- 6][mx 67(1) += 7][mg 67(1) <- 7][mx 68(2) += 8][mg 68(2) <- 8]
E R SIL e <- E : [mx 69(0) += 9][mg 69(0) <- 9][mx 70(1) += 10][mg 70(1) <- 10][mx 71(2) += 11][mg 71(2) <- 11]
E R T e <- E : [mx 72(0) += 9][mg 72(0) <- 9][mx 73(1) += 10][mg 73(1) <- 10][mx 74(2) += 11][mg 74(2) <- 11]
E T S e <- E : [mx 75(0) += 9][mg 75(0) <- 9][mx 76(1) += 10][mg 76(1) <- 10][mx 77(2) += 11][mg 77(2) <- 11]
E T SIL e <- E : [mx 78(0) += 9][mg 78(0) <- 9][mx 79(1) += 10][mg 79(1) <- 10][mx 80(2) += 11][mg 80(2) <- 11]
E U D e <- E : [mx 81(0) += 9][mg 81(0) <- 9][mx 82(1) += 10][mg 82(1) <- 10][mx 83(2) += 11][mg 83(2) <- 11]
E U SIL e <- E : [mx 84(0) += 9][mg 84(0) <- 9][mx 85(1) += 10][mg 85(1) <- 10][mx 86(2) += 11][mg 86(2) <- 11]
E V N e <- E : [mx 87(0) += 9][mg 87(0) <- 9][mx 88(1) += 10][mg 88(1) <- 10][mx 89(2) += 11][mg 89(2) <- 11]
E V SIL e <- E : [mx 90(0) += 9][mg 90(0) <- 9][mx 91(1) += 10][mg 91(1) <- 10][mx 92(2) += 11][mg 92(2) <- 11]
EH DZ R i <- EH : [mx 93(0) += 12][mg 93(0) <- 12][mx 94(1) += 13][mg 94(1) <- 13][mx 95(2) += 14][mg 95(2) <- 14]
EH S I i <- EH : [mx 96(0) += 12][mg 96(0) <- 12][mx 97(1) += 13][mg 97(1) <- 13][mx 98(2) += 14][mg 98(2) <- 14]
EH S T i <- EH : [mx 99(0) += 12][mg 99(0) <- 12][mx 100(1) += 13][mg 100(1) <- 13][mx 101(2) += 14][mg 101(2) <- 14]
HOH N V i <- HOH : [mx 102(0) += 15][mg 102(0) <- 15][mx 103(1) += 16][mg 103(1) <- 16][mx 104(2) += 17][mg 104(2) <- 17]
HOH O T b <- HOH : [mx 105(0) += 15][mg 105(0) <- 15][mx 106(1) += 16][mg 106(1) <- 16][mx 107(2) += 17][mg 107(2) <- 17]
HOH SIL T b <- HOH : [mx 108(0) += 15][mg 108(0) <- 15][mx 109(1) += 16][mg 109(1) <- 16][mx 110(2) += 17][mg 110(2) <- 17]
I TS N i <- I : [mx 111(0) += 18][mg 111(0) <- 18][mx 112(1) += 19][mg 112(1) <- 19][mx 113(2) += 20][mg 113(2) <- 20]
I EH S e <- I : [mx 114(0) += 18][mg 114(0) <- 18][mx 115(1) += 19][mg 115(1) <- 19][mx 116(2) += 20][mg 116(2) <- 20]
I EH SIL e <- I : [mx 117(0) += 18][mg 117(0) <- 18][mx 118(1) += 19][mg 118(1) <- 19][mx 119(2) += 20][mg 119(2) <- 20]
KW O AH b <- KW : [mx 120(0) += 21][mg 120(0) <- 21][mx 121(1) += 22][mg 121(1) <- 22][mx 122(2) += 23][mg 122(2) <- 23]
KW SIL AH b <- KW : [mx 123(0) += 21][mg 123(0) <- 21][mx 124(1) += 22][mg 124(1) <- 22][mx 125(2) += 23][mg 125(2) <- 23]
KWE N SIL e <- KWE : [mx 126(0) += 24][mg 126(0) <- 24][mx 127(1) += 25][mg 127(1) <- 25][mx 128(2) += 26][mg 128(2) <- 26]
KWE N TS e <- KWE : [mx 129(0) += 24][mg 129(0) <- 24][mx 130(1) += 25][mg 130(1) <- 25][mx 131(2) += 26][mg 131(2) <- 26]
N E HOH b <- N : [mx 132(0) += 27][mg 132(0) <- 27][mx 133(1) += 28][mg 133(1) <- 28][mx 134(2) += 29][mg 134(2) <- 29]
N I KWE i <- N : [mx 135(0) += 27][mg 135(0) <- 27][mx 136(1) += 28][mg 136(1) <- 28][mx 137(2) += 29][mg 137(2) <- 29]
N SIL HOH b <- N : [mx 138(0) += 27][mg 138(0) <- 27][mx 139(1) += 28][mg 139(1) <- 28][mx 140(2) += 29][mg 140(2) <- 29]
N U O i <- N : [mx 141(0) += 27][mg 141(0) <- 27][mx 142(1) += 28][mg 142(1) <- 28][mx 143(2) += 29][mg 143(2) <- 29]
O R DZ e <- O : [mx 144(0) += 30][mg 144(0) <- 30][mx 145(1) += 31][mg 145(1) <- 31][mx 146(2) += 32][mg 146(2) <- 32]
O R SIL e <- O : [mx 147(0) += 30][mg 147(0) <- 30][mx 148(1) += 31][mg 148(1) <- 31][mx 149(2) += 32][mg 149(2) <- 32]
O N SIL e <- O : [mx 150(0) += 30][mg 150(0) <- 30][mx 151(1) += 31][mg 151(1) <- 31][mx 152(2) += 32][mg 152(2) <- 32]
O N U e <- O : [mx 153(0) += 30][mg 153(0) <- 30][mx 154(1) += 31][mg 154(1) <- 31][mx 155(2) += 32][mg 155(2) <- 32]
O R KW e <- O : init_mixw: acmod_set.c:761: acmod_set_id2tri: Assertion `acmod_set_tri2id(acmod_set, multi[addr].base, multi[addr].left_context, multi[addr].right_context, multi[addr].posn) == id' failed. [mx 156(0) += 30][mg 156(0) <- 30][mx 157(1) += 31][mg 157(1) <- 31][mx 158(2) += 32][mg 158(2) <- 32]
Wed Jun 13 16:27:15 2007
as you can see, there aren't any errors or warnings, but when I try to the the bw binary file, there's this FATAL ERROR
WARN: "s3io.c", line 247: Unable to open /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/mixture_weights for reading; No such file or directory
FATAL_ERROR: "main.c", line 1048: initialization failure
indeed, in my cd_cont_untied folder is empty. why? i don't understand....please help me
If you would like to refer to this comment somewhere else in this project, copy and paste the following link:
i'm using the script script_pl/30.cd_hmm_untied/slave_convg.pl but i'm encountering some ploblems. this's the copycitocd.log
/home/aenima1891/tutorial/numeri/bin/init_mixw \ -src_moddeffn /home/aenima1891/tutorial/numeri/model_architecture/numeri.ci.mdef \ -src_ts2cbfn .cont. \ -src_mixwfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/mixture_weights \ -src_meanfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/means \ -src_varfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/variances \ -src_tmatfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/transition_matrices \ -dest_moddeffn /home/aenima1891/tutorial/numeri/model_architecture/numeri.untied.mdef \ -dest_ts2cbfn .cont. \ -dest_mixwfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/mixture_weights \ -dest_meanfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/means \ -dest_varfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/variances \ -dest_tmatfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/transition_matrices \ -fullvar no \ -feat 1s_12c_12d_3p_12dd \ -ceplen 13
[Switch] [Default] [Value]
-help no no
-example no no
-src_moddeffn /home/aenima1891/tutorial/numeri/model_architecture/numeri.ci.mdef
-src_ts2cbfn .cont.
-src_mixwfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/mixture_weights
-src_meanfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/means
-src_varfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/variances
-fullvar no no
-src_tmatfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/transition_matrices
-dest_moddeffn /home/aenima1891/tutorial/numeri/model_architecture/numeri.untied.mdef
-dest_ts2cbfn .cont.
-dest_mixwfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/mixture_weights
-dest_meanfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/means
-dest_varfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/variances
-dest_tmatfn /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/transition_matrices
-feat 1s_12c_12d_3p_12dd 1s_12c_12d_3p_12dd
-ceplen 13 13
-cepwin 0 0
INFO: main.c(280): Reading src /home/aenima1891/tutorial/numeri/model_architecture/numeri.ci.mdef
INFO: model_def_io.c(587): Model definition info:
INFO: model_def_io.c(588): 18 total models defined (18 base, 0 tri)
INFO: model_def_io.c(589): 72 total states
INFO: model_def_io.c(590): 54 total tied states
INFO: model_def_io.c(591): 54 total tied CI states
INFO: model_def_io.c(592): 18 total tied transition matrices
INFO: model_def_io.c(593): 4 max state/model
INFO: model_def_io.c(594): 4 min state/model
INFO: main.c(297): Generating continous ts2cb mapping
INFO: main.c(312): Reading src /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/mixture_weights
INFO: s3mixw_io.c(116): Read /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/mixture_weights [54x1x1 array]
INFO: main.c(321): Reading src /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/transition_matrices
INFO: s3tmat_io.c(115): Read /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/transition_matrices [18x3x4 array]
INFO: main.c(331): Reading src /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/means
INFO: s3gau_io.c(166): Read /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/means [54x1x1 array]
INFO: main.c(356): Reading src /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/variances
INFO: s3gau_io.c(166): Read /home/aenima1891/tutorial/numeri/model_parameters/numeri.ci_cont/variances [54x1x1 array]
INFO: main.c(398): Reading dest /home/aenima1891/tutorial/numeri/model_architecture/numeri.untied.mdef
INFO: model_def_io.c(587): Model definition info:
INFO: model_def_io.c(588): 76 total models defined (18 base, 58 tri)
INFO: model_def_io.c(589): 304 total states
INFO: model_def_io.c(590): 228 total tied states
INFO: model_def_io.c(591): 54 total tied CI states
INFO: model_def_io.c(592): 18 total tied transition matrices
INFO: model_def_io.c(593): 4 max state/model
INFO: model_def_io.c(594): 4 min state/model
INFO: main.c(415): Generating continous ts2cb mapping
INFO: main.c(433): Calculating initial model parameters
INFO: main.c(438): Alloc 18x3x4 dest tmat
INFO: main.c(451): Alloc 228x1x1 dest mixw
INFO: main.c(464): Alloc 228x1x1 dest mean and var
AH <- AH : [tm 0 += 0]
[mx 0(0) += 0] [mg 0(0) <- 0] [mx 1(1) += 1] [mg 1(1) <- 1] [mx 2(2) += 2] [mg 2(2) <- 2]
D <- D : [tm 1 += 1]
[mx 3(0) += 3] [mg 3(0) <- 3] [mx 4(1) += 4] [mg 4(1) <- 4] [mx 5(2) += 5] [mg 5(2) <- 5]
DZ <- DZ : [tm 2 += 2]
[mx 6(0) += 6] [mg 6(0) <- 6] [mx 7(1) += 7] [mg 7(1) <- 7] [mx 8(2) += 8] [mg 8(2) <- 8]
E <- E : [tm 3 += 3]
[mx 9(0) += 9] [mg 9(0) <- 9] [mx 10(1) += 10] [mg 10(1) <- 10] [mx 11(2) += 11] [mg 11(2) <- 11]
EH <- EH : [tm 4 += 4]
[mx 12(0) += 12] [mg 12(0) <- 12] [mx 13(1) += 13] [mg 13(1) <- 13] [mx 14(2) += 14] [mg 14(2) <- 14]
HOH <- HOH : [tm 5 += 5]
[mx 15(0) += 15] [mg 15(0) <- 15] [mx 16(1) += 16] [mg 16(1) <- 16] [mx 17(2) += 17] [mg 17(2) <- 17]
I <- I : [tm 6 += 6]
[mx 18(0) += 18] [mg 18(0) <- 18] [mx 19(1) += 19] [mg 19(1) <- 19] [mx 20(2) += 20] [mg 20(2) <- 20]
KW <- KW : [tm 7 += 7]
[mx 21(0) += 21] [mg 21(0) <- 21] [mx 22(1) += 22] [mg 22(1) <- 22] [mx 23(2) += 23] [mg 23(2) <- 23]
KWE <- KWE : [tm 8 += 8]
[mx 24(0) += 24] [mg 24(0) <- 24] [mx 25(1) += 25] [mg 25(1) <- 25] [mx 26(2) += 26] [mg 26(2) <- 26]
N <- N : [tm 9 += 9]
[mx 27(0) += 27] [mg 27(0) <- 27] [mx 28(1) += 28] [mg 28(1) <- 28] [mx 29(2) += 29] [mg 29(2) <- 29]
O <- O : [tm 10 += 10]
[mx 30(0) += 30] [mg 30(0) <- 30] [mx 31(1) += 31] [mg 31(1) <- 31] [mx 32(2) += 32] [mg 32(2) <- 32]
R <- R : [tm 11 += 11]
[mx 33(0) += 33] [mg 33(0) <- 33] [mx 34(1) += 34] [mg 34(1) <- 34] [mx 35(2) += 35] [mg 35(2) <- 35]
S <- S : [tm 12 += 12]
[mx 36(0) += 36] [mg 36(0) <- 36] [mx 37(1) += 37] [mg 37(1) <- 37] [mx 38(2) += 38] [mg 38(2) <- 38]
SIL <- SIL : [tm 13 += 13]
[mx 39(0) += 39] [mg 39(0) <- 39] [mx 40(1) += 40] [mg 40(1) <- 40] [mx 41(2) += 41] [mg 41(2) <- 41]
T <- T : [tm 14 += 14]
[mx 42(0) += 42] [mg 42(0) <- 42] [mx 43(1) += 43] [mg 43(1) <- 43] [mx 44(2) += 44] [mg 44(2) <- 44]
TS <- TS : [tm 15 += 15]
[mx 45(0) += 45] [mg 45(0) <- 45] [mx 46(1) += 46] [mg 46(1) <- 46] [mx 47(2) += 47] [mg 47(2) <- 47]
U <- U : [tm 16 += 16]
[mx 48(0) += 48] [mg 48(0) <- 48] [mx 49(1) += 49] [mg 49(1) <- 49] [mx 50(2) += 50] [mg 50(2) <- 50]
V <- V : [tm 17 += 17]
[mx 51(0) += 51] [mg 51(0) <- 51] [mx 52(1) += 52] [mg 52(1) <- 52] [mx 53(2) += 53] [mg 53(2) <- 53]
AH KW T i <- AH : [mx 54(0) += 0] [mg 54(0) <- 0] [mx 55(1) += 1] [mg 55(1) <- 1] [mx 56(2) += 2] [mg 56(2) <- 2]
D E U b <- D : [mx 57(0) += 3] [mg 57(0) <- 3] [mx 58(1) += 4] [mg 58(1) <- 4] [mx 59(2) += 5] [mg 59(2) <- 5]
D SIL U b <- D : [mx 60(0) += 3] [mg 60(0) <- 3] [mx 61(1) += 4] [mg 61(1) <- 4] [mx 62(2) += 5] [mg 62(2) <- 5]
DZ O EH b <- DZ : [mx 63(0) += 6] [mg 63(0) <- 6] [mx 64(1) += 7] [mg 64(1) <- 7] [mx 65(2) += 8] [mg 65(2) <- 8]
DZ SIL EH b <- DZ : [mx 66(0) += 6] [mg 66(0) <- 6] [mx 67(1) += 7] [mg 67(1) <- 7] [mx 68(2) += 8] [mg 68(2) <- 8]
E R SIL e <- E : [mx 69(0) += 9] [mg 69(0) <- 9] [mx 70(1) += 10] [mg 70(1) <- 10] [mx 71(2) += 11] [mg 71(2) <- 11]
E R T e <- E : [mx 72(0) += 9] [mg 72(0) <- 9] [mx 73(1) += 10] [mg 73(1) <- 10] [mx 74(2) += 11] [mg 74(2) <- 11]
E T S e <- E : [mx 75(0) += 9] [mg 75(0) <- 9] [mx 76(1) += 10] [mg 76(1) <- 10] [mx 77(2) += 11] [mg 77(2) <- 11]
E T SIL e <- E : [mx 78(0) += 9] [mg 78(0) <- 9] [mx 79(1) += 10] [mg 79(1) <- 10] [mx 80(2) += 11] [mg 80(2) <- 11]
E U D e <- E : [mx 81(0) += 9] [mg 81(0) <- 9] [mx 82(1) += 10] [mg 82(1) <- 10] [mx 83(2) += 11] [mg 83(2) <- 11]
E U SIL e <- E : [mx 84(0) += 9] [mg 84(0) <- 9] [mx 85(1) += 10] [mg 85(1) <- 10] [mx 86(2) += 11] [mg 86(2) <- 11]
E V N e <- E : [mx 87(0) += 9] [mg 87(0) <- 9] [mx 88(1) += 10] [mg 88(1) <- 10] [mx 89(2) += 11] [mg 89(2) <- 11]
E V SIL e <- E : [mx 90(0) += 9] [mg 90(0) <- 9] [mx 91(1) += 10] [mg 91(1) <- 10] [mx 92(2) += 11] [mg 92(2) <- 11]
EH DZ R i <- EH : [mx 93(0) += 12] [mg 93(0) <- 12] [mx 94(1) += 13] [mg 94(1) <- 13] [mx 95(2) += 14] [mg 95(2) <- 14]
EH S I i <- EH : [mx 96(0) += 12] [mg 96(0) <- 12] [mx 97(1) += 13] [mg 97(1) <- 13] [mx 98(2) += 14] [mg 98(2) <- 14]
EH S T i <- EH : [mx 99(0) += 12] [mg 99(0) <- 12] [mx 100(1) += 13] [mg 100(1) <- 13] [mx 101(2) += 14] [mg 101(2) <- 14]
HOH N V i <- HOH : [mx 102(0) += 15] [mg 102(0) <- 15] [mx 103(1) += 16] [mg 103(1) <- 16] [mx 104(2) += 17] [mg 104(2) <- 17]
HOH O T b <- HOH : [mx 105(0) += 15] [mg 105(0) <- 15] [mx 106(1) += 16] [mg 106(1) <- 16] [mx 107(2) += 17] [mg 107(2) <- 17]
HOH SIL T b <- HOH : [mx 108(0) += 15] [mg 108(0) <- 15] [mx 109(1) += 16] [mg 109(1) <- 16] [mx 110(2) += 17] [mg 110(2) <- 17]
I TS N i <- I : [mx 111(0) += 18] [mg 111(0) <- 18] [mx 112(1) += 19] [mg 112(1) <- 19] [mx 113(2) += 20] [mg 113(2) <- 20]
I EH S e <- I : [mx 114(0) += 18] [mg 114(0) <- 18] [mx 115(1) += 19] [mg 115(1) <- 19] [mx 116(2) += 20] [mg 116(2) <- 20]
I EH SIL e <- I : [mx 117(0) += 18] [mg 117(0) <- 18] [mx 118(1) += 19] [mg 118(1) <- 19] [mx 119(2) += 20] [mg 119(2) <- 20]
KW O AH b <- KW : [mx 120(0) += 21] [mg 120(0) <- 21] [mx 121(1) += 22] [mg 121(1) <- 22] [mx 122(2) += 23] [mg 122(2) <- 23]
KW SIL AH b <- KW : [mx 123(0) += 21] [mg 123(0) <- 21] [mx 124(1) += 22] [mg 124(1) <- 22] [mx 125(2) += 23] [mg 125(2) <- 23]
KWE N SIL e <- KWE : [mx 126(0) += 24] [mg 126(0) <- 24] [mx 127(1) += 25] [mg 127(1) <- 25] [mx 128(2) += 26] [mg 128(2) <- 26]
KWE N TS e <- KWE : [mx 129(0) += 24] [mg 129(0) <- 24] [mx 130(1) += 25] [mg 130(1) <- 25] [mx 131(2) += 26] [mg 131(2) <- 26]
N E HOH b <- N : [mx 132(0) += 27] [mg 132(0) <- 27] [mx 133(1) += 28] [mg 133(1) <- 28] [mx 134(2) += 29] [mg 134(2) <- 29]
N I KWE i <- N : [mx 135(0) += 27] [mg 135(0) <- 27] [mx 136(1) += 28] [mg 136(1) <- 28] [mx 137(2) += 29] [mg 137(2) <- 29]
N SIL HOH b <- N : [mx 138(0) += 27] [mg 138(0) <- 27] [mx 139(1) += 28] [mg 139(1) <- 28] [mx 140(2) += 29] [mg 140(2) <- 29]
N U O i <- N : [mx 141(0) += 27] [mg 141(0) <- 27] [mx 142(1) += 28] [mg 142(1) <- 28] [mx 143(2) += 29] [mg 143(2) <- 29]
O R DZ e <- O : [mx 144(0) += 30] [mg 144(0) <- 30] [mx 145(1) += 31] [mg 145(1) <- 31] [mx 146(2) += 32] [mg 146(2) <- 32]
O R SIL e <- O : [mx 147(0) += 30] [mg 147(0) <- 30] [mx 148(1) += 31] [mg 148(1) <- 31] [mx 149(2) += 32] [mg 149(2) <- 32]
O N SIL e <- O : [mx 150(0) += 30] [mg 150(0) <- 30] [mx 151(1) += 31] [mg 151(1) <- 31] [mx 152(2) += 32] [mg 152(2) <- 32]
O N U e <- O : [mx 153(0) += 30] [mg 153(0) <- 30] [mx 154(1) += 31] [mg 154(1) <- 31] [mx 155(2) += 32] [mg 155(2) <- 32]
O R KW e <- O : init_mixw: acmod_set.c:761: acmod_set_id2tri: Assertion `acmod_set_tri2id(acmod_set, multi[addr].base, multi[addr].left_context, multi[addr].right_context, multi[addr].posn) == id' failed.
[mx 156(0) += 30] [mg 156(0) <- 30] [mx 157(1) += 31] [mg 157(1) <- 31] [mx 158(2) += 32] [mg 158(2) <- 32]
Wed Jun 13 16:27:15 2007
as you can see, there aren't any errors or warnings, but when I try to the the bw binary file, there's this FATAL ERROR
WARN: "s3io.c", line 247: Unable to open /home/aenima1891/tutorial/numeri/model_parameters/numeri.cd_cont_untied/mixture_weights for reading; No such file or directory
FATAL_ERROR: "main.c", line 1048: initialization failure
indeed, in my cd_cont_untied folder is empty. why? i don't understand....please help me