from migen.fhdl.std import * from migen.bus import wishbone, csr from migen.genlib.record import * from misoclib.mem.sdram.core import SDRAMCore from misoclib.mem.sdram.frontend import memtest, wishbone2lasmi from misoclib.soc import SoC, mem_decoder class SDRAMSoC(SoC): csr_map = { "sdram": 8, "wishbone2lasmi": 9, "memtest_w": 10, "memtest_r": 11 } csr_map.update(SoC.csr_map) def __init__(self, platform, clk_freq, ramcon_type="lasmicon", with_l2=True, l2_size=8192, with_bandwidth=False, # specific to LASMICON, with_memtest=False, # ignored for MINICON **kwargs): SoC.__init__(self, platform, clk_freq, **kwargs) self.ramcon_type = ramcon_type self.with_l2 = with_l2 self.l2_size = l2_size self.with_memtest = with_memtest self.with_bandwidth = with_bandwidth or with_memtest self._sdram_phy_registered = False def register_sdram_phy(self, phy, geom_settings, timing_settings, controller_settings): if self._sdram_phy_registered: raise FinalizeError self._sdram_phy_registered = True if self.ramcon_type == "minicon" and phy.settings.memtype != "SDR": raise NotImplementedError("Minicon only supports SDR memtype for now (" + phy.settings.memtype + ")") # Core self.submodules.sdram = SDRAMCore(phy, self.ramcon_type, geom_settings, timing_settings, controller_settings) # LASMICON frontend if self.ramcon_type == "lasmicon": if self.with_bandwidth: self.sdram.controller.multiplexer.add_bandwidth() if self.with_memtest: self.submodules.memtest_w = memtest.MemtestWriter(self.sdram.crossbar.get_master()) self.submodules.memtest_r = memtest.MemtestReader(self.sdram.crossbar.get_master()) if self.with_l2: # XXX Vivado 2014.X workaround, Vivado is not able to map correctly our L2 cache. # Issue is reported to Xilinx and should be fixed in next releases (2015.1?). # Remove this workaround when fixed by Xilinx. from mibuild.xilinx.vivado import XilinxVivadoToolchain if isinstance(self.platform.toolchain, XilinxVivadoToolchain): from migen.fhdl.simplify import FullMemoryWE self.submodules.wishbone2lasmi = FullMemoryWE(wishbone2lasmi.WB2LASMI(self.l2_size//4, self.sdram.crossbar.get_master())) else: self.submodules.wishbone2lasmi = wishbone2lasmi.WB2LASMI(self.l2_size//4, self.sdram.crossbar.get_master()) lasmic = self.sdram.controller.lasmic main_ram_size = 2**lasmic.aw*lasmic.dw*lasmic.nbanks//8 self.register_mem("sdram", self.mem_map["sdram"], self.wishbone2lasmi.wishbone, main_ram_size) # MINICON frontend elif self.ramcon_type == "minicon": sdram_width = flen(self.sdram.controller.bus.dat_r) main_ram_size = 2**(geom_settings.bank_a+geom_settings.row_a+geom_settings.col_a)*sdram_width//8 if sdram_width == 32: self.register_mem("sdram", self.mem_map["sdram"], self.sdram.controller.bus, main_ram_size) elif sdram_width < 32: self.submodules.downconverter = downconverter = wishbone.DownConverter(32, sdram_width) self.comb += Record.connect(downconverter.wishbone_o, self.sdram.controller.bus) self.register_mem("sdram", self.mem_map["sdram"], downconverter.wishbone_i, main_ram_size) else: raise NotImplementedError("Unsupported SDRAM width of {} > 32".format(sdram_width)) def do_finalize(self): if not self.with_main_ram: if not self._sdram_phy_registered: raise FinalizeError("Need to call SDRAMSoC.register_sdram_phy()") SoC.do_finalize(self)