Dataset { Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; Grid { ARRAY: Int16 airdens[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } airdens; Grid { ARRAY: Int16 cloud[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } cloud; Grid { ARRAY: Int16 evaprate[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } evaprate; Grid { ARRAY: Int16 fvcubed[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } fvcubed; Grid { ARRAY: Int16 latent3[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } latent3; Grid { ARRAY: Int16 longrad[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } longrad; Grid { ARRAY: Int16 netheat[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } netheat; Grid { ARRAY: Int16 precip6[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } precip6; Grid { ARRAY: Int16 precip7[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } precip7; Grid { ARRAY: Int16 qair[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } qair; Grid { ARRAY: Int16 qs-qa[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } qs-qa; Grid { ARRAY: Int16 qsea[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } qsea; Grid { ARRAY: Int16 rh[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } rh; Grid { ARRAY: Int16 sat[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } sat; Grid { ARRAY: Int16 sensib3[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } sensib3; Grid { ARRAY: Int16 shortrad[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } shortrad; Grid { ARRAY: Int16 slp[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } slp; Grid { ARRAY: Int16 sst[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } sst; Grid { ARRAY: Int16 sst-sat[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } sst-sat; Grid { ARRAY: Int16 taux3[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } taux3; Grid { ARRAY: Int16 tauy3[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } tauy3; Grid { ARRAY: Int16 u3[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } u3; Grid { ARRAY: Int16 ua[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } ua; Grid { ARRAY: Int16 uq[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } uq; Grid { ARRAY: Int16 v3[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } v3; Grid { ARRAY: Int16 va[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } va; Grid { ARRAY: Int16 vq[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } vq; Grid { ARRAY: Int16 w3[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } w3; Grid { ARRAY: Int16 zdl[T = 12][Y = 180][X = 360]; MAPS: Float32 T[T = 12]; Float32 Y[Y = 180]; Float32 X[X = 360]; } zdl; } climatology;