#!/usr/bin/env python import dsx import soclib def VgmnNoirqMono(): pf = soclib.Architecture(cell_size = 4, plen_size = 8, addr_size = 32, rerror_size = 1, clen_size = 1, rflag_size = 1, srcid_size = 8, pktid_size = 1, trdid_size = 1, wrplen_size = 1 ) mt = pf.create('common:mapping_table', 'mapping_table', addr_bits = [8], srcid_bits = [8], cacheability_mask = 0xc00000) pf.create('common:loader', 'loader') vgmn = pf.create('caba:vci_vgmn', 'vgmn0', min_latency = 10, fifo_depth = 8, mt = mt) cpu = pf.create('caba:vci_xcache_wrapper', 'cpu0', iss_t = "common:mips32el", ident = 0, icache_ways = 1, icache_sets = 16, icache_words = 8, dcache_ways = 1, dcache_sets = 16, dcache_words = 8) vgmn.to_initiator.new() // cpu.vci # Coprocessors generation (commented for now) # Here, we retrieve the hardware implementation of TG which allows us to # instanciate the coprocessor and its controller # # tg = dsx.TaskModel.getByName('tg').getImpl(soclib.HwTask) # # The creation returns two components # ctrl, coproc = tg.instanciate(pf, 'tg0') # # We need now to assign an address to the controller and to connect it # # to the interconnect (there is two ports to connect) # ctrl.addSegment('tg_ctrl', 0x70400000, 0x100, False) # ctrl.vci_initiator // vgmn.to_initiator.new() # ctrl.vci_target // vgmn.to_target.new() # # # same with ramdac # ramdac = dsx.TaskModel.getByName('ramdac').getImpl(soclib.HwTask) # ctrl, coproc = ramdac.instanciate(pf, 'ramdac0') # ctrl.addSegment('ramdac_ctrl', 0x71400000, 0x100, False) # ctrl.vci_initiator // vgmn.to_initiator.new() # ctrl.vci_target // vgmn.to_target.new() for i in range(2): ram = pf.create('caba:vci_ram', 'ram%d'%i) base = 0x10000000*i+0x10000000 ram.addSegment('cram%d'%i, base, 0x100000, True) ram.addSegment('uram%d'%i, base + 0x400000, 0x100000, False) ram.vci // vgmn.to_target.new() ram.addSegment('boot', 0xbfc00000, 0x1000, True) # Mips boot address, 0x1000 octets, cacheable ram.addSegment('excep', 0x80000080, 0x1000, True) # Mips exception address, 0x1000 octets, cacheable tty = pf.create('caba:vci_multi_tty', 'tty0', names = ['tty0']) tty.addSegment('tty0', 0x90400000, 0x20, False) tty.vci // vgmn.to_target.new() return pf # This is a python quirk to generate the platform # if this file is directly called, but only export # methods if imported from somewhere else if __name__ == '__main__': VgmnNoirqMono().generate(soclib.PfDriver())
Last modified 13 years ago
Last modified on Jul 5, 2011, 3:08:48 PM
Attachments (1)
-
vgmn_noirq_mono.png (3.3 KB) - added by 13 years ago.
platform picture
Download all attachments as: .zip