litex/examples/de0_nano/top.py

196 lines
5.0 KiB
Python

################################################################################
# _____ _ ____ _ _ _ _
# | __|___ |_|___ _ _ | \|_|___|_| |_ ___| |
# | __| | | | . | | | | | | | . | | _| .'| |
# |_____|_|_|_| |___|_ | |____/|_|_ |_|_| |__,|_|
# |___| |___| |___|
#
# Copyright 2012 / Florent Kermarrec / florent@enjoy-digital.fr
#
# migScope Example on De0 Nano Board
# ----------------------------------
################################################################################
#
# In this example signals are generated in the FPGA.
# We will use migScope to record those signals and visualize them.
#
# Example architecture:
# ----------------------
# migScope Config --> Python Client (Host) --> Vcd Output
# & Trig |
# Arduino (Uart<-->Spi Bridge)
# |
# De0 Nano
# |
# +--------------------+-----------------------+
# migIo Signal Generator migLa
# Control of Signal Ramp, Sinus, Logic Analyzer
# generator Square, ...
###############################################################################
#==============================================================================
# I M P O R T
#==============================================================================
from migen.fhdl.structure import *
from migen.fhdl import verilog, autofragment
from migen.bus import csr
from migen.bus.transactions import *
from migen.bank import description, csrgen
from migen.bank.description import *
import sys
sys.path.append("../../")
from migScope import trigger, recorder, migIo, migLa
import spi2Csr
from timings import *
from constraints import Constraints
from math import sin
#==============================================================================
# P A R A M E T E R S
#==============================================================================
#Timings Param
clk_freq = 50*MHz
clk_period_ns = clk_freq*ns
n = t2n(clk_period_ns)
# Bus Width
trig0_width = 16
dat0_width = 16
trig1_width = 32
dat1_width = 32
# Record Size
record_size = 4096
# Csr Addr
MIGIO0_ADDR = 0x0000
MIGLA0_ADDR = 0x0200
MIGLA1_ADDR = 0x0600
#==============================================================================
# M I S C O P E E X A M P L E
#==============================================================================
def get():
# migIo0
migIo0 = migIo.MigIo(MIGIO0_ADDR, 8, "IO")
# migLa0
term0 = trigger.Term(trig0_width)
trigger0 = trigger.Trigger(trig0_width, [term0])
recorder0 = recorder.Recorder(dat0_width, record_size)
migLa0 = migLa.MigLa(MIGLA0_ADDR, trigger0, recorder0)
# migLa1
term1 = trigger.Term(trig1_width)
trigger1 = trigger.Trigger(trig1_width, [term1])
recorder1 = recorder.Recorder(dat1_width, record_size)
migLa1 = migLa.MigLa(MIGLA1_ADDR, trigger1, recorder1)
# Spi2Csr
spi2csr0 = spi2Csr.Spi2Csr(16,8)
# Csr Interconnect
csrcon0 = csr.Interconnect(spi2csr0.csr,
[
migIo0.bank.interface,
migLa0.trig.bank.interface,
migLa0.rec.bank.interface,
migLa1.trig.bank.interface,
migLa1.rec.bank.interface,
])
comb = []
sync = []
#
# Signal Generator
#
# Counter
cnt_gen = Signal(BV(8))
sync += [
cnt_gen.eq(cnt_gen+1)
]
# Square
square_gen = Signal(BV(8))
sync += [
If(cnt_gen[7],
square_gen.eq(255)
).Else(
square_gen.eq(0)
)
]
sinus = [int(128*sin((2*3.1415)/256*(x+1)))+128 for x in range(256)]
sinus_re = Signal()
sinus_gen = Signal(BV(8))
comb +=[sinus_re.eq(1)]
sinus_port = MemoryPort(adr=cnt_gen, re=sinus_re, dat_r=sinus_gen)
sinus_mem = Memory(8, 256, sinus_port, init = sinus)
# Signal Selection
sig_gen = Signal(BV(8))
comb += [
If(migIo0.o == 0,
sig_gen.eq(cnt_gen)
).Elif(migIo0.o == 1,
sig_gen.eq(square_gen)
).Elif(migIo0.o == 2,
sig_gen.eq(sinus_gen)
).Else(
sig_gen.eq(0)
)
]
# Led
led0 = Signal(BV(8))
comb += [led0.eq(migIo0.o[:8])]
# MigLa0 input
comb += [
migLa0.in_trig.eq(sig_gen),
migLa0.in_dat.eq(sig_gen)
]
# MigLa1 input
comb += [
migLa1.in_trig[:8].eq(spi2csr0.csr.dat_w),
migLa1.in_trig[8:24].eq(spi2csr0.csr.adr),
migLa1.in_trig[24].eq(spi2csr0.csr.we),
migLa1.in_dat[:8].eq(spi2csr0.csr.dat_w),
migLa1.in_dat[8:24].eq(spi2csr0.csr.adr),
migLa1.in_dat[24].eq(spi2csr0.csr.we)
]
# HouseKeeping
cd_in = ClockDomain("in")
in_rst_n = Signal()
comb += [
cd_in.rst.eq(~in_rst_n)
]
frag = autofragment.from_local()
frag += Fragment(sync=sync,comb=comb,memories=[sinus_mem])
cst = Constraints(in_rst_n, cd_in, spi2csr0, led0)
src_verilog, vns = verilog.convert(frag,
cst.get_ios(),
name="de1",
clock_domains={
"sys": cd_in
},
return_ns=True)
src_qsf = cst.get_qsf(vns)
return (src_verilog, src_qsf)