def ResNetWong(c, **kargs): return n.Seq( n.Conv(16, 3, padding=1, bias=False), n.WideBlock(16), n.WideBlock(16), n.WideBlock(32, True), n.WideBlock(64, True), n.FFNN([1000, c], ibp_init=True, bias=True, last_lin=True, last_zono=True, **kargs))
def ResNetTiny(c, **kargs): # resnetWide also used by mixtrain and scaling provable adversarial defenses def wb(c, bias = True, **kargs): return n.WideBlock(c, False, bias=bias, ibp_init=True, batch_norm = False, **kargs) return n.Seq(n.Conv(16, 3, padding=1, bias=True, ibp_init = True), wb(16), wb(32), wb(32), wb(32), wb(32), n.FFNN([500, c], bias=True, last_lin=True, ibp_init = True, last_zono = True, **kargs))
def ResNetTiny_ManyFixed(c, **kargs): # resnetWide also used by mixtrain and scaling provable adversarial defenses def wb(c, bias = True, **kargs): return n.WideBlock(c, False, bias=bias, ibp_init=True, batch_norm = False, **kargs) cmk = n.CorrFix dec = lambda x: n.DecorrMin(x, num_to_keep = True) return n.Seq(n.CorrMaxK(32), n.Conv(16, 3, padding=1, bias=True, ibp_init = True), cmk(16), dec(16), wb(16), cmk(8), dec(8), wb(32), cmk(8), dec(8), wb(32), cmk(4), dec(4), wb(32), n.Concretize(), wb(32), n.FFNN([500, c], bias=True, last_lin=True, ibp_init = True, last_zono = True, **kargs))
def ResNetLarge_LargeCombo(c, **kargs): # resnetWide also used by mixtrain and scaling provable adversarial defenses def wb(c, bias = True, **kargs): return n.WideBlock(c, False, bias=bias, ibp_init=True, batch_norm = False, **kargs) dl = n.DeepLoss cmk = n.CorrMaxK cm2d = n.CorrMaxPool2D cm3d = n.CorrMaxPool3D dec = lambda x: n.DecorrMin(x, num_to_keep = True) return n.Seq(n.Conv(16, 3, padding=1, bias=True, ibp_init = True), cmk(4), wb(16), cmk(4), dec(4), wb(32), cmk(4), dec(4), wb(32), dl(S.Until(1, 0, S.Lin(0.5, 0, 50, 3))), wb(32), cmk(4), dec(4), wb(64), cmk(4), dec(2), wb(64), dl(S.Until(24, S.Lin(0, 0.1, 20, 4), S.Lin(0.1, 0, 50))), wb(64), n.FFNN([1000, c], bias=True, last_lin=True, ibp_init = True, **kargs))
def SkipNet18_Combo(c, **kargs): dl = n.DeepLoss cmk = n.CorrFix dec = lambda x: n.DecorrMin(x, num_to_keep=True) return n.Seq( n.ResNet([2, 2, 2, 2], extra=[(cmk(20), 2), (dec(10), 2), (cmk(10), 3), (dec(5), 3), (dl(S.Until(90, S.Lin(0, 0.2, 50, 40), 0)), 3), (cmk(5), 4), (dec(2), 4)], bias=True, ibp_init=True, skip_net=True), n.FFNN([512, 512, c], bias=True, last_lin=True, last_zono=True, ibp_init=True, **kargs))
def SemanticGenerator(latent_dim, bias=False, normal=False): conv_layers = [(latent_dim * 2, 5, 5, 2, 'ReLU'), (1, 4, 4, 2, 'tanh')] def transfer(tp): if isinstance(tp, InferModule): return tp if isinstance(tp[0], str): return MaxPool2D(*tp[1:]) return Seq( ConvTranspose2D(out_channels=tp[0], kernel_size=tp[1], stride=tp[-2] if len(tp) == 5 else 1, bias=bias, normal=normal, padding=0), activation(tp[-1])) conv = [transfer(s) for s in conv_layers] return n.Seq( #input_shape=(Z_DIM,) n.FFNN([latent_dim * 7 * 7 * 4], batch_norm=True, bias=bias), Unflatten2d((7, 7, LATENT_DIM * 4)), *conv)
def resnet18small(c, **kargs): return n.Seq(n.ResNet([2, 2, 2]), n.FFNN([100, c], bias=True, last_lin=False, **kargs))
def ffnn(c, **kargs): return n.FFNN([100, 100, 100, 100, 100, c], **kargs)
def ResNet18(c, **kargs): return n.Seq(n.ResNet([2,2,2,2], bias = True, ibp_init = True), n.FFNN([512, 512, c], bias=True, last_lin=True, last_zono = True, ibp_init = True, **kargs))
def ffnnGGD(c, **kargs): return n.FFNN([500, 500, 500, 500, 500, 500, c], last_lin=True, activation="ReLU", **kargs)
def WordLevelSST2(c, **kargs): return n.Seq(n.Embedding(1, 300), n.Conv(100, 5, bias=True), n.AvgPool2D(5), n.ReduceToZono(), n.FFNN([c], last_lin=True, last_zono=True, **kargs))
def FFNN(c, **kargs): return n.FFNN([100, 100, 100, 100, 100,c], last_lin = True, last_zono = True, **kargs)
def ffnnSIGMOID(c, **kargs): return n.FFNN([500, 500, 500, 500, 500, 500, c], last_lin=True, activation="Sigmoid", **kargs)
def ffnnTANH(c, **kargs): return n.FFNN([500, 500, 500, 500, 500, 500, c], last_lin=True, activation="Tanh", **kargs)
def resnet18(c, **kargs): return n.Seq(n.ResNet([2, 2, 2, 2]), n.FFNN([512, 512, c], bias=False, last_lin=True, **kargs))
def CharLevelAGSub(c, **kargs): return n.Seq(n.EmbeddingWithSub(64, 64, 3), n.Conv(64, 10, bias=True), n.AvgPool2D(10), n.ReduceToZono(), n.FFNN([64, 64, c], last_lin=True, last_zono=True, **kargs)) #
def resnet34(c, **kargs): return n.Seq(n.ResNet([3, 4, 6, 3]), n.FFNN([512, 512, c], bias=False, last_lin=True, **kargs))
def ffnnLin(c, **kargs): return n.FFNN([100, 100, 100, 100, 100, c], last_lin=True, **kargs)