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- def find_upcunet_v2():
- avg_pool=4
- print_mod = False
- check_mod = True
- print("cascade")
-
- for i in range(76, 512):
- print("-- {}".format(i))
- print_buf = []
- s = i
- # unet 1
- s = s - 4 # conv3x3x2
- s = s / 2 # down2x2
- s = s - 4 # conv3x3x2
- if print_mod: print(s, s % 2, s % 4, s % 6, s % 8)
- if check_mod and s % avg_pool != 0:
- continue
- s = s / 2 # down2x2
- s = s - 4 # conv3x3x2
-
- if print_mod: print(s, s % 2, s % 4, s % 6, s % 8)
- if check_mod and s % avg_pool != 0:
- continue
- s = s * 2 # up2x2
- s = s - 4 # conv3x3x2
- if print_mod: print(s, s % 2, s % 4, s % 6, s % 8)
- if check_mod and s % avg_pool != 0:
- continue
- s = s * 2 # up2x2
- # deconv
- s = s
- s = s * 2 - 4
- # unet 2
- s = s - 4 # conv3x3x2
- s = s / 2 # down2x2
- s = s - 4 # conv3x3x2
- if print_mod: print(s, s % 2, s % 4, s % 6, s % 8)
- if check_mod and s % avg_pool != 0:
- continue
- s = s / 2 # down2x2
- s = s - 4 # conv3x3x2
- if print_mod: print(s, s % 2, s % 4, s % 6, s % 8)
- if check_mod and s % avg_pool != 0:
- continue
- s = s * 2 # up2x2
- s = s - 4 # conv3x3x2
- if print_mod: print(s, s % 2, s % 4, s % 6, s % 8)
- if check_mod and s % avg_pool != 0:
- continue
- s = s * 2 # up2x2
- s = s - 2 # conv3x3 last
- #if s % avg_pool != 0:
- # continue
- print("ok", i, s)
- def find_upcunet():
- check_mod = True
- print_size = False
- print("cascade")
-
- for i in range(72, 512):
- print_buf = []
- s = i
- # unet 1
- s = s - 4 # conv3x3x2
- if print_size: print("1/2", s)
- if check_mod and s % 2 != 0:
- continue
- s = s / 2 # down2x2
- s = s - 4 # conv3x3x2
- if print_size: print("1/2",s)
- if check_mod and s % 2 != 0:
- continue
- s = s / 2 # down2x2
- s = s - 4 # conv3x3x2
-
- s = s * 2 # up2x2
- if print_size: print("2x",s)
- s = s - 4 # conv3x3x2
- s = s * 2 # up2x2
- if print_size: print("2x",s)
- # deconv
- s = s - 2
- s = s * 2 - 4
- # unet 2
- s = s - 4 # conv3x3x2
- if print_size: print("1/2",s)
- if check_mod and s % 2 != 0:
- continue
- s = s / 2 # down2x2
- s = s - 4 # conv3x3x2
- if print_size: print("1/2",s)
- if check_mod and s % 2 != 0:
- continue
- s = s / 2 # down2x2
- s = s - 4 # conv3x3x2
- s = s * 2 # up2x2
- if print_size: print("2x",s)
- s = s - 4 # conv3x3x2
- s = s * 2 # up2x2
- if print_size: print("2x",s)
- s = s - 2 # conv3x3
- s = s - 2 # conv3x3 last
- #if s % avg_pool != 0:
- # continue
- print("ok", i, s, s/ i)
-
- def find_cunet():
- check_mod = True
- print_size = False
- print("cascade")
-
- for i in range(72, 512):
- print_buf = []
- s = i
- # unet 1
- s = s - 4 # conv3x3x2
- if print_size: print("1/2", s)
- if check_mod and s % 2 != 0:
- continue
- s = s / 2 # down2x2
- s = s - 4 # conv3x3x2
- if print_size: print("1/2",s)
- if check_mod and s % 2 != 0:
- continue
- s = s / 2 # down2x2
- s = s - 4 # conv3x3x2
-
- s = s * 2 # up2x2
- if print_size: print("2x",s)
- s = s - 4 # conv3x3x2
- s = s * 2 # up2x2
- if print_size: print("2x",s)
- s = s - 4
- #s = s * 2 - 4
- # unet 2
- s = s - 4 # conv3x3x2
- if print_size: print("1/2",s)
- if check_mod and s % 2 != 0:
- continue
- s = s / 2 # down2x2
- s = s - 4 # conv3x3x2
- if print_size: print("1/2",s)
- if check_mod and s % 2 != 0:
- continue
- s = s / 2 # down2x2
- s = s - 4 # conv3x3x2
- s = s * 2 # up2x2
- if print_size: print("2x",s)
- s = s - 4 # conv3x3x2
- s = s * 2 # up2x2
- if print_size: print("2x",s)
- s = s - 2 # conv3x3
- s = s - 2 # conv3x3 last
- #if s % avg_pool != 0:
- # continue
- print("ok", i, s, s / i)
-
- #find_upcunet()
- find_cunet()
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