puts "from  ecomp add32.e bshift.e part1.e -o part1.net"
puts "from  esim < part1.run > part1.out"
esim load part1.net
# revised 11/24/98 no new tests, just use loop
# revised 8/11/99  different opcodes, add complement
# load up the instruction memory with 32 bit works
# lw 1,4(0)
esim write -hex inst_mem.mr   0x0 32 80010004
# lw 2,8(0)
esim write -hex inst_mem.mr  0x20 32 80020008
# lw 3,0xC(0)
esim write -hex inst_mem.mr  0x40 32 8003000C
# lw 4,0x10(0)
esim write -hex inst_mem.mr  0x60 32 80040010
# ai 5,0x14(1)
esim write -hex inst_mem.mr  0x80 32 C0250014
# add 2,2,2
esim write -hex inst_mem.mr  0xA0 32 10421001
# sub 3,3,1
esim write -hex inst_mem.mr  0xC0 32 10611802
# cmpl 1,1
esim write -hex inst_mem.mr  0xE0 32 10010804
# shr 4,4,4
esim write -hex inst_mem.mr 0x100 32 10802108
# shl 5,5,8
esim write -hex inst_mem.mr 0x120 32 10A02A10
# sw 1,8(0)
esim write -hex inst_mem.mr 0x140 32 E0010008
# nop  must execute to clean out pipeline
esim write -hex inst_mem.mr 0x160 32 00000000
# nop
esim write -hex inst_mem.mr 0x180 32 00000000
# nop
esim write -hex inst_mem.mr 0x1A0 32 00000000
# nop
esim write -hex inst_mem.mr 0x1C0 32 00000000
# nop
esim write -hex inst_mem.mr 0x1E0 32 00000000
#
# load register zero with zero, hopefully safe from software bug that
# might change it
esim write -hex greg.mr  0x0 32 00000000
# load data memory with 32 bit words
esim write -hex dmem.mr   0x0 32 00112233
esim write -hex dmem.mr  0x20 32 11111111
esim write -hex dmem.mr  0x40 32 22222222
esim write -hex dmem.mr  0x60 32 33333333
esim write -hex dmem.mr  0x80 32 44444444
esim write -hex dmem.mr  0xA0 32 55555555
esim write -hex dmem.mr  0xC0 32 66666666
esim write -hex dmem.mr  0xE0 32 77777777
esim write -hex dmem.mr 0x100 32 88888888
# stop just before the first clock in order to print
esim run 199
for {set i 16} {$i} {incr i -1} {
puts "inst=  [esim show -hex inst]   at [esim curtime]"
puts "ir_s1= [esim show -hex ir_s1]  at clock [esim show cntr]"
puts "ir_s2= [esim show -hex ir_s2]  a_s2= [esim show -hex a_s2]  b_s2= [esim show -hex b_s2]  c_s2= [esim show -hex c_s2]"
puts "ir_s3= [esim show -hex ir_s3]  a_s3= [esim show -hex a_s3]  b_s3= [esim show -hex b_s3]"
puts "ir_s4= [esim show -hex ir_s4]  a_s4= [esim show -hex a_s4]  b_s4= [esim show -hex b_s4] waiting=[esim events]\n"
# stop just before the clock in order to print
esim run 200
}
#
# dump registers and memory
# output some general registers
puts " General registers at end of simulation "
puts "greg 0- 3= [esim read -hex greg.mr  0x0 32] [esim read -hex greg.mr 0x20 32] [esim read -hex greg.mr 0x40 32] [esim read -hex greg.mr 0x60 32]"
puts "greg 4- 7= [esim read -hex greg.mr  0x80 32] [esim read -hex greg.mr 0xA0 32] [esim read -hex greg.mr 0xC0 32] [esim read -hex greg.mr 0xE0 32]"
puts "greg 8-11= [esim read -hex greg.mr  0x100 32] [esim read -hex greg.mr 0x120 32] [esim read -hex greg.mr 0x140 32] [esim read -hex greg.mr 0x160 32]"
puts "greg12-15= [esim read -hex greg.mr  0x180 32] [esim read -hex greg.mr 0x1A0 32] [esim read -hex greg.mr 0x1C0 32] [esim read -hex greg.mr 0x1E0 32]"
#
# more output, data memory
puts " Data Memory at end of simulation "
puts "dmem 0- 3= [esim read -hex dmem.mr  0x0 32] [esim read -hex dmem.mr 0x20 32] [esim read -hex dmem.mr 0x40 32] [esim read -hex dmem.mr 0x60 32]"
puts "dmem 4- 7= [esim read -hex dmem.mr  0x80 32] [esim read -hex dmem.mr 0xA0 32] [esim read -hex dmem.mr 0xC0 32] [esim read -hex dmem.mr 0xE0 32]"
puts "dmem 8-11= [esim read -hex dmem.mr  0x100 32] [esim read -hex dmem.mr 0x120 32] [esim read -hex dmem.mr 0x140 32] [esim read -hex dmem.mr 0x160 32]"
puts "dmem12-15= [esim read -hex dmem.mr  0x180 32] [esim read -hex dmem.mr 0x1A0 32] [esim read -hex dmem.mr 0x1C0 32] [esim read -hex dmem.mr 0x1E0 32]"
#
puts "part1.out finished"