17 November 2024 12:43:39.554 PM diaphony(): Fortran90 version Compute the diaphony of a point set. Input comes from "cvt_02_00100.txt". The spatial dimension is 2 The number of points is 100 File M N Diaphony 1/sqrt(N) D/sqrt(N) cvt_02_00100.txt 2 100 0.445544E-01 0.100000 0.445544 DIAPHONY: Normal end of execution. 17 November 2024 12:43:39.556 PM 17 November 2024 12:43:39.558 PM diaphony(): Fortran90 version Compute the diaphony of a point set. Input comes from "halton_02_00100.txt". The spatial dimension is 2 The number of points is 100 File M N Diaphony 1/sqrt(N) D/sqrt(N) halton_02_00100.txt 2 100 0.436302E-01 0.100000 0.436302 DIAPHONY: Normal end of execution. 17 November 2024 12:43:39.559 PM 17 November 2024 12:43:39.560 PM diaphony(): Fortran90 version Compute the diaphony of a point set. Input comes from "uniform_02_00010.txt". The spatial dimension is 2 The number of points is 10 File M N Diaphony 1/sqrt(N) D/sqrt(N) uniform_02_00010.txt 2 10 0.290895 0.316228 0.919890 DIAPHONY: Normal end of execution. 17 November 2024 12:43:39.560 PM 17 November 2024 12:43:39.561 PM diaphony(): Fortran90 version Compute the diaphony of a point set. Input comes from "uniform_02_00100.txt". The spatial dimension is 2 The number of points is 100 File M N Diaphony 1/sqrt(N) D/sqrt(N) uniform_02_00100.txt 2 100 0.124734 0.100000 1.24734 DIAPHONY: Normal end of execution. 17 November 2024 12:43:39.562 PM 17 November 2024 12:43:39.563 PM diaphony(): Fortran90 version Compute the diaphony of a point set. Input comes from "uniform_07_10000.txt". The spatial dimension is 7 The number of points is 10000 File M N Diaphony 1/sqrt(N) D/sqrt(N) uniform_07_10000.txt 7 10000 0.100144E-01 0.100000E-01 1.00144 DIAPHONY: Normal end of execution. 17 November 2024 12:43:50.777 PM