# Support for the Digilent Atlys (http://digilentinc.com/atlys/) - The board used for HDMI2USB prototyping. from litex.build.generic_platform import * from litex.build.xilinx import XilinxPlatform, iMPACT # There appear to be 4 x LTC2481C on the U1-SCL / U1-SDA lines connected to the Cypress class DynamicLVCMOS(object): """Object to allow configuration of IOBs connected to dynamic voltage level. This is used because VCCB2 supply for Bank 2 can be connected to either the VCC2V5 or VCC3V3 rail depending on JP12, however there is no way to autodetect this. """ def __init__(self, name): self.name = name self.level = None def set(self, value): self.level = { "VCC2V5": "LVCMOS25", "VCC3V3": "LVCMOS33", }[value] def __str__(self): assert self.level, "%s object accessed before voltage level set!" % self.name return self.level def __add__(self, o): return str(self) + o def __radd__(self, o): return o + str(self) # VCC Bank 0 == 3V3 LVCMOS_BANK0 = "LVCMOS33" # VCC Bank 1 == 3V3 LVCMOS_BANK1 = "LVCMOS33" # VCC Bank 2 == 3V3 or 2V5 LVCMOS_BANK2 = DynamicLVCMOS("LVCMOS_BANK2") # VCC Bank 3 == 1V8 LVCMOS_BANK3 = "LVCMOS18" # VCC Aux == 3V3 _io = [ # NET "clk" LOC = "L15"; # Bank = 1, Pin name = IO_L42P_GCLK7_M1UDM, Type = GCLK, Sch name = GCLK # SG8002JF - 100MHz - CMOS Crystal Oscillator ("clk100", 0, Pins("L15"), IOStandard(LVCMOS_BANK1)), # M0/RESET button # VCCB2 --[10K]--+--[1k]-- M0/Reset # | # GND -[ BTN ]-+--[390]- BTNRST # NET "btn<0>" LOC = "T15"; # Bank = 2, Pin name = IO_L1N_M0_CMPMISO_2, Sch name = M0/RESET ("cpu_reset", 0, Pins("T15"), IOStandard(LVCMOS_BANK2)), ## onBoard USB controller - FIXME # CY7C68013A-56 # EEPROM config 24AA128 -- A0,A1,A2 = 1,0,0 -- JP9 connects / disconnects SDA # NET "EppAstb" LOC = "B9"; # Bank = 0, Pin name = IO_L35P_GCLK17, Sch name = U1-FLAGA # NET "EppDstb" LOC = "A9"; # Bank = 0, Pin name = IO_L35N_GCLK16, Sch name = U1-FLAGB # NET "UsbFlag" LOC = "C15"; # Bank = 0, Pin name = IO_L64P_SCP5, Sch name = U1-FLAGC # NET "EppWait" LOC = "F13"; # Bank = 0, Pin name = IO_L63P_SCP7, Sch name = U1-SLRD # NET "EppDB<0>" LOC = "A2"; # Bank = 0, Pin name = IO_L2N, Sch name = U1-FD0 # NET "EppDB<1>" LOC = "D6"; # Bank = 0, Pin name = IO_L3P, Sch name = U1-FD1 # NET "EppDB<2>" LOC = "C6"; # Bank = 0, Pin name = IO_L3N, Sch name = U1-FD2 # NET "EppDB<3>" LOC = "B3"; # Bank = 0, Pin name = IO_L4P, Sch name = U1-FD3 # NET "EppDB<4>" LOC = "A3"; # Bank = 0, Pin name = IO_L4N, Sch name = U1-FD4 # NET "EppDB<5>" LOC = "B4"; # Bank = 0, Pin name = IO_L5P, Sch name = U1-FD5 # NET "EppDB<6>" LOC = "A4"; # Bank = 0, Pin name = IO_L5N, Sch name = U1-FD6 # NET "EppDB<7>" LOC = "C5"; # Bank = 0, Pin name = IO_L6P, Sch name = U1-FD7 # HDMI2USB configuration.... ("fx2", 0, Subsignal("ifclk", Pins("C10")), Subsignal("data", Pins("A2 D6 C6 B3 A3 B4 A4 C5")), Subsignal("addr", Pins("A14 B14"), Misc("DRIVE=12")), Subsignal("flaga", Pins("B9"), Misc("DRIVE=12")), Subsignal("flagb", Pins("A9"), Misc("DRIVE=12")), Subsignal("flagc", Pins("C15"), Misc("DRIVE=12")), Subsignal("rd_n", Pins("F13"), Misc("DRIVE=12")), Subsignal("wr_n", Pins("E13")), Subsignal("oe_n", Pins("A15"), Misc("DRIVE=12")), Subsignal("cs_n", Pins("B2")), Subsignal("pktend_n", Pins("C4"), Misc("DRIVE=12")), IOStandard(LVCMOS_BANK0) ), ## onBoard Quad-SPI Flash # 16Mbyte x4 SPI Flash for configuration & data storage. An FPGA # configuration file requires less than 12Mbits, leaving 116Mbits # available for user data. # Numonyx -- N25Q12-F8 or N25Q12-SF # DQ0 - SDI, DQ1 - SDO, DQ2 -> ^WP/DQ2 (pulled high), DQ3 -> ^HOLD/DQ3 (pulled high) ("spiflash4x", 0, # NET "FlashCS" LOC = "V3"; # Bank = 2, Pin name = IO_L65N_CSO_B_2, Sch name = CS Subsignal("cs_n", Pins("V3")), # NET "FlashCLK" LOC = "R15"; # Bank = 2, Pin name = IO_L1P_CCLK_2, Sch name = SCK Subsignal("clk", Pins("R15")), # NET "FlashMemDq<0>" LOC = "T13"; # Bank = 2, Pin name = IO_L3N_MOSI_CSI_B_MISO0_2, Sch name = SDI # NET "FlashMemDq<1>" LOC = "R13"; # Bank = 2, Pin name = IO_L3P_D0_DIN_MISO_MISO1_2, Sch name = DQ1 # NET "FlashMemDq<2>" LOC = "T14"; # Bank = 2, Pin name = IO_L12P_D1_MISO2_2, Sch name = DQ2 # NET "FlashMemDq<3>" LOC = "V14"; # Bank = 2, Pin name = IO_L12N_D2_MISO3_2, Sch name = DQ3 Subsignal("dq", Pins("T13", "R13", "T14", "V14")), IOStandard(LVCMOS_BANK2), Misc("SLEW=FAST") ), ## onBoard Leds # NET "Led<0>" LOC = "U18"; # Bank = 1, Pin name = IO_L52N_M1DQ15, Sch name = LD0 # NET "Led<1>" LOC = "M14"; # Bank = 1, Pin name = IO_L53P, Sch name = LD1 # NET "Led<2>" LOC = "N14"; # Bank = 1, Pin name = IO_L53N_VREF, Sch name = LD2 # NET "Led<3>" LOC = "L14"; # Bank = 1, Pin name = IO_L61P, Sch name = LD3 # NET "Led<4>" LOC = "M13"; # Bank = 1, Pin name = IO_L61N, Sch name = LD4 # NET "Led<5>" LOC = "D4"; # Bank = 0, Pin name = IO_L1P_HSWAPEN_0, Sch name = HSWAP/LD5 # NET "Led<6>" LOC = "P16"; # Bank = 1, Pin name = IO_L74N_DOUT_BUSY_1, Sch name = LD6 # NET "Led<7>" LOC = "N12"; # Bank = 2, Pin name = IO_L13P_M1_2, Sch name = M1/LD7 ("user_led", 0, Pins("U18"), IOStandard(LVCMOS_BANK1)), ("user_led", 1, Pins("M14"), IOStandard(LVCMOS_BANK1)), ("user_led", 2, Pins("N14"), IOStandard(LVCMOS_BANK1)), ("user_led", 3, Pins("L14"), IOStandard(LVCMOS_BANK1)), ("user_led", 4, Pins("M13"), IOStandard(LVCMOS_BANK1)), ("user_led", 5, Pins("D4"), IOStandard(LVCMOS_BANK0)), ("user_led", 6, Pins("P16"), IOStandard(LVCMOS_BANK1)), ("user_led", 7, Pins("N12"), IOStandard(LVCMOS_BANK2)), ## onBoard PUSH BUTTONS - FIXME # Mapping "up" to north # VCC1V8 - pulled down to GND via 10k # NET "btn<1>" LOC = "N4"; # Bank = 3, Pin name = IO_L1P, Sch name = BTNU ("user_btn", 0, Pins("N4"), IOStandard(LVCMOS_BANK3)), # North button # NET "btn<2>" LOC = "P4"; # Bank = 3, Pin name = IO_L2P, Sch name = BTNL ("user_btn", 1, Pins("P4"), IOStandard(LVCMOS_BANK3)), # East button # NET "btn<3>" LOC = "P3"; # Bank = 3, Pin name = IO_L2N, Sch name = BTND ("user_btn", 2, Pins("P3"), IOStandard(LVCMOS_BANK3)), # South button # NET "btn<4>" LOC = "F6"; # Bank = 3, Pin name = IO_L55P_M3A13, Sch name = BTNR ("user_btn", 3, Pins("F6"), IOStandard(LVCMOS_BANK3)), # West button # NET "btn<5>" LOC = "F5"; # Bank = 3, Pin name = IO_L55N_M3A14, Sch name = BTNC ("user_btn", 4, Pins("F5"), IOStandard(LVCMOS_BANK3)), # Center button ## onBoard SWITCHES - FIXME # SW(0,1,2,3) - VCC3V3 / GND # SW(4,5,6) - VCCB2 / GND # SW(7) - VCC1V8 / GND # NET "sw<0>" LOC = "A10"; # Bank = 0, Pin name = IO_L37N_GCLK12, Sch name = SW0 # NET "sw<1>" LOC = "D14"; # Bank = 0, Pin name = IO_L65P_SCP3, Sch name = SW1 # NET "sw<2>" LOC = "C14"; # Bank = 0, Pin name = IO_L65N_SCP2, Sch name = SW2 # NET "sw<3>" LOC = "P15"; # Bank = 1, Pin name = IO_L74P_AWAKE_1, Sch name = SW3 # NET "sw<4>" LOC = "P12"; # Bank = 2, Pin name = IO_L13N_D10, Sch name = SW4 # NET "sw<5>" LOC = "R5"; # Bank = 2, Pin name = IO_L48P_D7, Sch name = SW5 # NET "sw<6>" LOC = "T5"; # Bank = 2, Pin name = IO_L48N_RDWR_B_VREF_2, Sch name = SW6 # NET "sw<7>" LOC = "E4"; # Bank = 3, Pin name = IO_L54P_M3RESET, Sch name = SW7 ("user_sw", 0, Pins("A10"), IOStandard(LVCMOS_BANK0)), ("user_sw", 1, Pins("D14"), IOStandard(LVCMOS_BANK0)), ("user_sw", 2, Pins("C14"), IOStandard(LVCMOS_BANK0)), ("user_sw", 3, Pins("P15"), IOStandard(LVCMOS_BANK1)), ("user_sw", 4, Pins("P12"), IOStandard(LVCMOS_BANK2)), ("user_sw", 5, Pins("R5"), IOStandard(LVCMOS_BANK2)), ("user_sw", 6, Pins("T5"), IOStandard(LVCMOS_BANK2)), ("user_sw", 7, Pins("E4"), IOStandard(LVCMOS_BANK3)), ## TEMAC Ethernet MAC - FIXME # 10/100/1000 Ethernet PHY # 88E111-B2-RCJ1-C000 - Marvell Alaska Tri-mode PHY (the 88E1111) # paired with a Halo HFJ11-1G01E RJ-45 connector # Runs from 1.2V power supply ("eth_clocks", 0, # NET "phytxclk" LOC = "K16"; # Bank = 1, Pin name = IO_L41N_GCLK8_M1CASN, Sch name = E-TXCLK Subsignal("tx", Pins("K16")), # NET "phygtxclk" LOC = "L12"; # Bank = 1, Pin name = IO_L40P_GCLK11_M1A5, Sch name = E-GTXCLK Subsignal("gtx", Pins("L12")), # NET "phyrxclk" LOC = "K15"; # Bank = 1, Pin name = IO_L41P_GCLK9_IRDY1_M1RASN, Sch name = E-RXCLK Subsignal("rx", Pins("K15")), IOStandard(LVCMOS_BANK1) ), ("eth", 0, # NET "phyrst" LOC = "G13"; # Bank = 1, Pin name = IO_L32N_A16_M1A9, Sch name = E-RESET Subsignal("rst_n", Pins("G13")), # NET "phyint" LOC = "L16"; # Bank = 1, Pin name = IO_L42N_GCLK6_TRDY1_M1LDM, Sch name = E-INT Subsignal("int_n", Pins("L16")), # NET "phymdi" LOC = "N17"; # Bank = 1, Pin name = IO_L48P_HDC_M1DQ8, Sch name = E-MDIO Subsignal("mdio", Pins("N17")), # NET "phymdc" LOC = "F16"; # Bank = 1, Pin name = IO_L1N_A24_VREF, Sch name = E-MDC Subsignal("mdc", Pins("F16")), # NET "phyrxdv" LOC = "F17"; # Bank = 1, Pin name = IO_L35P_A11_M1A7, Sch name = E-RXDV Subsignal("rx_dv", Pins("F17")), # NET "phyrxer" LOC = "F18"; # Bank = 1, Pin name = IO_L35N_A10_M1A2, Sch name = E-RXER Subsignal("rx_er", Pins("F18")), # NET "phyRXD<0>" LOC = "G16"; # Bank = 1, Pin name = IO_L38P_A5_M1CLK, Sch name = E-RXD0 # NET "phyRXD<1>" LOC = "H14"; # Bank = 1, Pin name = IO_L36N_A8_M1BA1, Sch name = E-RXD1 # NET "phyRXD<2>" LOC = "E16"; # Bank = 1, Pin name = IO_L33P_A15_M1A10, Sch name = E-RXD2 # NET "phyRXD<3>" LOC = "F15"; # Bank = 1, Pin name = IO_L1P_A25, Sch name = E-RXD3 # NET "phyRXD<4>" LOC = "F14"; # Bank = 1, Pin name = IO_L30P_A21_M1RESET, Sch name = E-RXD4 # NET "phyRXD<5>" LOC = "E18"; # Bank = 1, Pin name = IO_L33N_A14_M1A4, Sch name = E-RXD5 # NET "phyRXD<6>" LOC = "D18"; # Bank = 1, Pin name = IO_L31N_A18_M1A12, Sch name = E-RXD6 # NET "phyRXD<7>" LOC = "D17"; # Bank = 1, Pin name = IO_L31P_A19_M1CKE, Sch name = E-RXD7 Subsignal("rx_data", Pins("G16 H14 E16 F15 F14 E18 D18 D17")), # NET "phytxen" LOC = "H15"; # Bank = 1, Pin name = IO_L37P_A7_M1A0, Sch name = E-TXEN Subsignal("tx_en", Pins("H15")), # NET "phytxer" LOC = "G18"; # Bank = 1, Pin name = IO_L38N_A4_M1CLKN, Sch name = E-TXER Subsignal("tx_er", Pins("G18")), # NET "phyTXD<0>" LOC = "H16"; # Bank = 1, Pin name = IO_L37N_A6_M1A1, Sch name = E-TXD0 # NET "phyTXD<1>" LOC = "H13"; # Bank = 1, Pin name = IO_L36P_A9_M1BA0, Sch name = E-TXD1 # NET "phyTXD<2>" LOC = "K14"; # Bank = 1, Pin name = IO_L39N_M1ODT, Sch name = E-TXD2 # NET "phyTXD<3>" LOC = "K13"; # Bank = 1, Pin name = IO_L34N_A12_M1BA2, Sch name = E-TXD3 # NET "phyTXD<4>" LOC = "J13"; # Bank = 1, Pin name = IO_L39P_M1A3, Sch name = E-TXD4 # NET "phyTXD<5>" LOC = "G14"; # Bank = 1, Pin name = IO_L30N_A20_M1A11, Sch name = E-TXD5 # NET "phyTXD<6>" LOC = "H12"; # Bank = 1, Pin name = IO_L32P_A17_M1A8, Sch name = E-TXD6 # NET "phyTXD<7>" LOC = "K12"; # Bank = 1, Pin name = IO_L34P_A13_M1WE, Sch name = E-TXD7 Subsignal("tx_data", Pins("H16 H13 K14 K13 J13 G14 H12 K12")), # C17 - from Atlys reference manual, not listed in UCF file? Subsignal("col", Pins("C17")), # C18 - from Atlys reference manual, not listed in UCF file? Subsignal("crs", Pins("C18")), IOStandard(LVCMOS_BANK1) ), ## DDR2 # 128Mbyte DDR2 16-bit wide data @ 800MHz # Older boards - MT47H64M16HR-25E - DDR2 - 2.5ns @ CL = 5 (DDR2-800) # Newer boards - MIRA P3R1GE3EGF G8E DDR2 - # # The interface supports SSTL18 signaling. Address and control signals # are terminated through 47-ohm resistors to a 0.9V VTT, and data # signals use the On-Die-Termination (ODT) feature of the DDR2 chip. # # When generating a MIG core for the MIRA part, selecting the # “EDE1116AXXX-8E” device will result in the correct timing parameters # being set. When generating a component for the Micron part, it can be # selected by name within the wizard. The part loaded on your Atlys can # be determined by examining the print on the DDR2 component (IC13). # # NET "DDR2CLK0" LOC = "G3"; # Bank = 3, Pin name = IO_L46P_M3CLK, Sch name = DDR-CK_P # NET "DDR2CLK1" LOC = "G1"; # Bank = 3, Pin name = IO_L46N_M3CLKN, Sch name = DDR-CK_N ("ddram_clock", 0, Subsignal("p", Pins("G3")), Subsignal("n", Pins("G1")), IOStandard("DIFF_SSTL18_II"), Misc("IN_TERM=NONE") ), ("ddram", 0, # NET "DDR2CKE" LOC = "H7"; # Bank = 3, Pin name = IO_L53P_M3CKE, Sch name = DDR-CKE Subsignal("cke", Pins("H7"), IOStandard("SSTL18_II")), # NET "DDR2RASN" LOC = "L5"; # Bank = 3, Pin name = IO_L43P_GCLK23_M3RASN, Sch name = DDR-RAS Subsignal("ras_n", Pins("L5"), IOStandard("SSTL18_II")), # NET "DDR2CASN" LOC = "K5"; # Bank = 3, Pin name = IO_L43N_GCLK22_IRDY2_M3CASN, Sch name = DDR-CAS Subsignal("cas_n", Pins("K5"), IOStandard("SSTL18_II")), # NET "DDR2WEN" LOC = "E3"; # Bank = 3, Pin name = IO_L50P_M3WE, Sch name = DDR-WE Subsignal("we_n", Pins("E3"), IOStandard("SSTL18_II")), # NET "DDR2BA0" LOC = "F2"; # Bank = 3, Pin name = IO_L48P_M3BA0, Sch name = DDR-BA0 # NET "DDR2BA1" LOC = "F1"; # Bank = 3, Pin name = IO_L48N_M3BA1, Sch name = DDR-BA1 # NET "DDR2BA2" LOC = "E1"; # Bank = 3, Pin name = IO_L50N_M3BA2, Sch name = DDR-BA2 Subsignal("ba", Pins("F2 F1 E1"), IOStandard("SSTL18_II")), # NET "DDR2A0" LOC = "J7"; # Bank = 3, Pin name = IO_L47P_M3A0, Sch name = DDR-A0 # NET "DDR2A1" LOC = "J6"; # Bank = 3, Pin name = IO_L47N_M3A1, Sch name = DDR-A1 # NET "DDR2A2" LOC = "H5"; # Bank = 3, Pin name = IO_L49N_M3A2, Sch name = DDR-A2 # NET "DDR2A3" LOC = "L7"; # Bank = 3, Pin name = IO_L45P_M3A3, Sch name = DDR-A3 # NET "DDR2A4" LOC = "F3"; # Bank = 3, Pin name = IO_L51N_M3A4, Sch name = DDR-A4 # NET "DDR2A5" LOC = "H4"; # Bank = 3, Pin name = IO_L44P_GCLK21_M3A5, Sch name = DDR-A5 # NET "DDR2A6" LOC = "H3"; # Bank = 3, Pin name = IO_L44N_GCLK20_M3A6, Sch name = DDR-A6 # NET "DDR2A7" LOC = "H6"; # Bank = 3, Pin name = IO_L49P_M3A7, Sch name = DDR-A7 # NET "DDR2A8" LOC = "D2"; # Bank = 3, Pin name = IO_L52P_M3A8, Sch name = DDR-A8 # NET "DDR2A9" LOC = "D1"; # Bank = 3, Pin name = IO_L52N_M3A9, Sch name = DDR-A9 # NET "DDR2A10" LOC = "F4"; # Bank = 3, Pin name = IO_L51P_M3A10, Sch name = DDR-A10 # NET "DDR2A11" LOC = "D3"; # Bank = 3, Pin name = IO_L54N_M3A11, Sch name = DDR-A11 # NET "DDR2A12" LOC = "G6"; # Bank = 3, Pin name = IO_L53N_M3A12, Sch name = DDR-A12 Subsignal("a", Pins("J7 J6 H5 L7 F3 H4 H3 H6 D2 D1 F4 D3 G6"), IOStandard("SSTL18_II")), # NET "DDR2DQ0" LOC = "L2"; # Bank = 3, Pin name = IO_L37P_M3DQ0, Sch name = DDR-DQ0 # NET "DDR2DQ1" LOC = "L1"; # Bank = 3, Pin name = IO_L37N_M3DQ1, Sch name = DDR-DQ1 # NET "DDR2DQ2" LOC = "K2"; # Bank = 3, Pin name = IO_L38P_M3DQ2, Sch name = DDR-DQ2 # NET "DDR2DQ3" LOC = "K1"; # Bank = 3, Pin name = IO_L38N_M3DQ3, Sch name = DDR-DQ3 # NET "DDR2DQ4" LOC = "H2"; # Bank = 3, Pin name = IO_L41P_GCLK27_M3DQ4, Sch name = DDR-DQ4 # NET "DDR2DQ5" LOC = "H1"; # Bank = 3, Pin name = IO_L41N_GCLK26_M3DQ5, Sch name = DDR-DQ5 # NET "DDR2DQ6" LOC = "J3"; # Bank = 3, Pin name = IO_L40P_M3DQ6, Sch name = DDR-DQ6 # NET "DDR2DQ7" LOC = "J1"; # Bank = 3, Pin name = IO_L40N_M3DQ7, Sch name = DDR-DQ7 # NET "DDR2DQ8" LOC = "M3"; # Bank = 3, Pin name = IO_L36P_M3DQ8, Sch name = DDR-DQ8 # NET "DDR2DQ9" LOC = "M1"; # Bank = 3, Pin name = IO_L36N_M3DQ9, Sch name = DDR-DQ9 # NET "DDR2DQ10" LOC = "N2"; # Bank = 3, Pin name = IO_L35P_M3DQ10, Sch name = DDR-DQ10 # NET "DDR2DQ11" LOC = "N1"; # Bank = 3, Pin name = IO_L35N_M3DQ11, Sch name = DDR-DQ11 # NET "DDR2DQ12" LOC = "T2"; # Bank = 3, Pin name = IO_L33P_M3DQ12, Sch name = DDR-DQ12 # NET "DDR2DQ13" LOC = "T1"; # Bank = 3, Pin name = IO_L33N_M3DQ13, Sch name = DDR-DQ13 # NET "DDR2DQ14" LOC = "U2"; # Bank = 3, Pin name = IO_L32P_M3DQ14, Sch name = DDR-DQ14 # NET "DDR2DQ15" LOC = "U1"; # Bank = 3, Pin name = IO_L32N_M3DQ15, Sch name = DDR-DQ15 Subsignal("dq", Pins( "L2 L1 K2 K1 H2 H1 J3 J1", "M3 M1 N2 N1 T2 T1 U2 U1"), IOStandard("SSTL18_II")), # U == Upper, L == Lower # NET "DDR2UDQS" LOC="P2"; # Bank = 3, Pin name = IO_L34P_M3UDQS, Sch name = DDR-UDQS_P # NET "DDR2UDQSN" LOC="P1"; # Bank = 3, Pin name = IO_L34N_M3UDQSN, Sch name = DDR-UDQS_N # NET "DDR2LDQS" LOC="L4"; # Bank = 3, Pin name = IO_L39P_M3LDQS, Sch name = DDR-LDQS_P # NET "DDR2LDQSN" LOC="L3"; # Bank = 3, Pin name = IO_L39N_M3LDQSN, Sch name = DDR-LDQS_N Subsignal("dqs", Pins("P2 L4"), IOStandard("DIFF_SSTL18_II")), Subsignal("dqs_n", Pins("P1 L3"), IOStandard("DIFF_SSTL18_II")), # NET "DDR2UDM" LOC="K4"; # Bank = 3, Pin name = IO_L42P_GCLK25_TRDY2_M3UDM, Sch name = DDR-UDM # NET "DDR2LDM" LOC="K3"; # Bank = 3, Pin name = IO_L42N_GCLK24_M3LDM, Sch name = DDR-LDM Subsignal("dm", Pins("K4 K3"), IOStandard("SSTL18_II")), # NET "DDR2ODT" LOC="K6"; # Bank = 3, Pin name = IO_L45N_M3ODT, Sch name = DDR-ODT Subsignal("odt", Pins("K6"), IOStandard("SSTL18_II")) ), ## onboard HDMI OUT # Type A connector, marked as J2 on the board, next to the power connector. # Buffered / protected with TMDS141RHAR # NET "HDMIOUTCLKP" LOC = "B6"; # Bank = 0, Pin name = IO_L8P, Sch name = TMDS-TX-CLK_P # NET "HDMIOUTCLKN" LOC = "A6"; # Bank = 0, Pin name = IO_L8N_VREF, Sch name = TMDS-TX-CLK_N # NET "HDMIOUTD0P" LOC = "D8"; # Bank = 0, Pin name = IO_L11P, Sch name = TMDS-TX-0_P # NET "HDMIOUTD0N" LOC = "C8"; # Bank = 0, Pin name = IO_L11N, Sch name = TMDS-TX-0_N # NET "HDMIOUTD1P" LOC = "C7"; # Bank = 0, Pin name = IO_L10P, Sch name = TMDS-TX-1_P # NET "HDMIOUTD1N" LOC = "A7"; # Bank = 0, Pin name = IO_L10N, Sch name = TMDS-TX-1_N # NET "HDMIOUTD2P" LOC = "B8"; # Bank = 0, Pin name = IO_L33P, Sch name = TMDS-TX-2_P # NET "HDMIOUTD2N" LOC = "A8"; # Bank = 0, Pin name = IO_L33N, Sch name = TMDS-TX-2_N # NET "HDMIOUTSCL" LOC = "D9"; # Bank = 0, Pin name = IO_L34P_GCLK19, Sch name = TMDS-TX-SCL # NET "HDMIOUTSDA" LOC = "C9"; # Bank = 0, Pin name = IO_L34N_GCLK18, Sch name = TMDS-TX-SDA ("hdmi_out", 0, Subsignal("clk_p", Pins("B6"), IOStandard("TMDS_33")), Subsignal("clk_n", Pins("A6"), IOStandard("TMDS_33")), Subsignal("data0_p", Pins("D8"), IOStandard("TMDS_33")), Subsignal("data0_n", Pins("C8"), IOStandard("TMDS_33")), Subsignal("data1_p", Pins("C7"), IOStandard("TMDS_33")), Subsignal("data1_n", Pins("A7"), IOStandard("TMDS_33")), Subsignal("data2_p", Pins("B8"), IOStandard("TMDS_33")), Subsignal("data2_n", Pins("A8"), IOStandard("TMDS_33")), # Disconnect JP6 and JP7 for FPGA SCL/SDA control, otherwise # this is connected to J3's SCL/SDA pins. Subsignal("scl", Pins("D9"), IOStandard("I2C")), Subsignal("sda", Pins("C9"), IOStandard("I2C")), ), ## onboard HDMI IN1 (PMODA) # Type A connector, marked as J1, on side with USB connectors. # Buffered / protected with TMDS141RHAR # JP4 connects / disconnects 5V to HDMI pin 18, for input to work make # sure it is connected. # NET "HDMIIN1CLKP" LOC = "D11"; # Bank = 0, Pin name = IO_L36P_GCLK15, Sch name = TMDS-RXB-CLK_P # NET "HDMIIN1CLKN" LOC = "C11"; # Bank = 0, Pin name = IO_L36N_GCLK14, Sch name = TMDS-RXB-CLK_N # NET "HDMIIN1D0P" LOC = "G9"; # Bank = 0, Pin name = IO_L38P, Sch name = TMDS-RXB-0_P # NET "HDMIIN1D0N" LOC = "F9"; # Bank = 0, Pin name = IO_L38N_VREF, Sch name = TMDS-RXB-0_N # NET "HDMIIN1D1P" LOC = "B11"; # Bank = 0, Pin name = IO_L39P, Sch name = TMDS-RXB-1_P # NET "HDMIIN1D1N" LOC = "A11"; # Bank = 0, Pin name = O_L39N, Sch name = TMDS-RXB-1_N # NET "HDMIIN1D2P" LOC = "B12"; # Bank = 0, Pin name = IO_L41P, Sch name = TMDS-RXB-2_P # NET "HDMIIN1D2N" LOC = "A12"; # Bank = 0, Pin name = IO_L41N, Sch name = TMDS-RXB-2_N # NET "HDMIIN1SCL" LOC = "C13"; # Bank = 0, Pin name = IO_L50P, Sch name = PMOD-SCL # NET "HDMIIN1SDA" LOC = "A13"; # Bank = 0, Pin name = IO_L50N, Sch name = PMOD-SDA ("hdmi_in", 0, Subsignal("clk_p", Pins("D11")), Subsignal("clk_n", Pins("C11")), Subsignal("data0_p", Pins("G9")), Subsignal("data0_n", Pins("F9")), Subsignal("data1_p", Pins("B11")), Subsignal("data1_n", Pins("A11")), Subsignal("data2_p", Pins("B12")), Subsignal("data2_n", Pins("A12")), # Make sure JP2 is connected. Shared with J1. Subsignal("scl", Pins("C13"), IOStandard(LVCMOS_BANK0)), Subsignal("sda", Pins("A13"), IOStandard(LVCMOS_BANK0)), #Subsignal("hpd_notif", Pins("G22"), IOStandard("LVCMOS33")), #Subsignal("hpd_en", Pins("G17"), IOStandard("LVCMOS33")) ), ## onboard HDMI IN2 # Type A connector, marked as J3, between audio connectors and Ethernet # RJ45 connector. # Buffered / protected with a TMDS141RHAR # JP8 connects / disconnects 5V to HDMI pin 18, for input to work make # sure it is connected. # NET "HDMIIN2CLKP" LOC = "H17"; # Bank = 1, Pin name = IO_L43P_GCLK5_M1DQ4, Sch name = TMDS-RX-CLK_P # NET "HDMIIN2CLKN" LOC = "H18"; # Bank = 1, Pin name = IO_L43N_GCLK4_M1DQ5, Sch name = TMDS-RX-CLK_N # NET "HDMIIN2D0P" LOC = "K17"; # Bank = 1, Pin name = IO_L45P_A1_M1LDQS, Sch name = TMDS-RX-0_P # NET "HDMIIN2D0N" LOC = "K18"; # Bank = 1, Pin name = IO_L45N_A0_M1LDQSN, Sch name = TMDS-RX-0_N # NET "HDMIIN2D1P" LOC = "L17"; # Bank = 1, Pin name = IO_L46P_FCS_B_M1DQ2, Sch name = TMDS-RX-1_P # NET "HDMIIN2D1N" LOC = "L18"; # Bank = 1, Pin name = IO_L46N_FOE_B_M1DQ3, Sch name = TMDS-RX-1_N # NET "HDMIIN2D2P" LOC = "J16"; # Bank = 1, Pin name = IO_L44P_A3_M1DQ6, Sch name = TMDS-RX-2_P # NET "HDMIIN2D2N" LOC = "J18"; # Bank = 1, Pin name = IO_L44N_A2_M1DQ7, Sch name = TMDS-RX-2_N # NET "HDMIIN2SCL" LOC = "M16"; # Bank = 1, Pin name = IO_L47P_FWE_B_M1DQ0, Sch name = TMDS-RX-SCL # NET "HDMIIN2SDA" LOC = "M18"; # Bank = 1, Pin name = IO_L47N_LDC_M1DQ1, Sch name = TMDS-RX-SDA ("hdmi_in", 1, Subsignal("clk_p", Pins("H17")), Subsignal("clk_n", Pins("H18")), Subsignal("data0_p", Pins("K17")), Subsignal("data0_n", Pins("K18")), Subsignal("data1_p", Pins("L17")), Subsignal("data1_n", Pins("L18")), Subsignal("data2_p", Pins("J16")), Subsignal("data2_n", Pins("J18")), # Disconnect JP6 and JP7 for FPGA SCL/SDA control, otherwise # this is connected to J2's SCL/SDA pins. Subsignal("scl", Pins("M16"), IOStandard(LVCMOS_BANK1)), Subsignal("sda", Pins("M18"), IOStandard(LVCMOS_BANK1)), #Subsignal("hpd_notif", Pins("G16"), IOStandard("LVCMOS33")), #Subsignal("hpd_en", Pins("B20"), IOStandard("LVCMOS33")) ), ## onboard USB Host Controller - FIXME # PIC32MX440F256H-40I/MR # USB-HID port (for mouse/keyboard) # PS/2 Keyboard - K_CLK - P17 # PS/2 Keyboard - K_DAT - N15 # PS/2 Mouse - M_CLK - N18 # PS/2 Mouse - M_DAT - P18 # FPGA Serial programming - DIN - R13 # FPGA Serial programming - CLK - R15 # NET "USBCLK" LOC = "P17"; # Bank = 1, Pin name = IO_L49P_M1DQ10, Sch name = PIC32-SCK1 # NET "USBSDI" LOC = "N15"; # Bank = 1, Pin name = IO_L50P_M1UDQS, Sch name = PIC32-SDI1 # NET "USBSS" LOC = "P18"; # Bank = 1, Pin name = IO_L49N_M1DQ11, Sch name = PIC32-SS1 # NET "USBSDO" LOC = "N18"; # Bank = 1, Pin name = IO_L48N_M1DQ9, Sch name = PIC32-SDO1 ## Audio - FIXME # National Semiconductor - LM4550VH # AC-97 Codec with line-in, line-out, mic, & headphone # Audio # NET "BITCLK" LOC = "L13"; # Bank = 1, Pin name = IO_L40N_GCLK10_M1A6, Sch name = AUD-BIT-CLK # NET "AUDSYNC" LOC = "U17"; # Bank = 1, Pin name = IO_L52P_M1DQ14, Sch name = AUD-SYNC # NET "AUDRST" LOC = "T17"; # Bank = 1, Pin name = IO_L51P_M1DQ12, Sch name = AUD-RESET # NET "AUDSDI" LOC = "T18"; # Bank = 1, Pin name = IO_L51N_M1DQ13, Sch name = AUD-SDI # NET "AUDSDO" LOC = "N16"; # Bank = 1, Pin name = IO_L50N_M1UDQSN, Sch name = AUD-SDO ## USB UART Connector # USB Micro B port marked as UART between HDMI connector and USB A connector. # XR21V1410IL16 - Vizzini USB Serial - https://github.com/shenki/exar-uart-driver # NET "UartRx" LOC = "A16"; # Bank = 0, Pin name = IO_L66N_SCP0, Sch name = USBB-RXD # NET "UartTx" LOC = "B16"; # Bank = 0, Pin name = IO_L66P_SCP1, Sch name = USBB-TXD ("serial", 0, Subsignal("rx", Pins("A16"), IOStandard("LVCMOS33")), Subsignal("tx", Pins("B16"), IOStandard("LVCMOS33")), ), # ("fpga_cfg", # Subsignal("din", Pins("T14")), # Subsignal("cclk", Pins("R14")), # Subsignal("init_b", Pins("T12")), # Subsignal("prog_b", Pins("A2")), # Subsignal("done", Pins("T15")), # ), # ("jtag", # Subsignal("tms", Pins("B2")), # Subsignal("tdo", Pins("B16")), # Subsignal("tdi", Pins("B1")), # Subsignal("tck", Pins("A15")), # ), ] # This Micro-D HDMI connector only works when VCCB2 is set to 3V3. _io_vccb2_3v3 = [ ## PMOD Connector # Micro-D connector, marked as JB, on the same side as switches + LEDs # but on the underside of the board below MOD connector. Works as # either output or input because it isn't buffered. Also often referred # to as "JA". # JP12 connects VCC to 3.3V or 2.5V, make sure 3.3V is selected. # JP3 connects / disconnects 5V to HDMI pin 19. # * To use as output, remove the jumper. # * To use as input, make sure it is connected. # NET "JB<5>" LOC = "T9"; # Bank = 2, Pin name = IO_L32P_GCLK29, Sch name = JA-CLK_P # NET "JB<4>" LOC = "V9"; # Bank = 2, Pin name = IO_L32N_GCLK28, Sch name = JA-CLK_N # NET "JB<1>" LOC = "R3"; # Bank = 2, Pin name = IO_L62P_D5, Sch name = JA-D0_P # NET "JB<0>" LOC = "T3"; # Bank = 2, Pin name = IO_L62N_D6, Sch name = JA-D0_N # NET "JB<7>" LOC = "T4"; # Bank = 2, Pin name = IO_L63P, Sch name = JA-D1_P # NET "JB<6>" LOC = "V4"; # Bank = 2, Pin name = IO_L63N, Sch name = JA-D1_N # NET "JB<3>" LOC = "N5"; # Bank = 2, Pin name = IO_L64P_D8, Sch name = JA-D2_P # NET "JB<2>" LOC = "P6"; # Bank = 2, Pin name = IO_L64N_D9, Sch name = JA-D2_N ("hdmi_out", 1, Subsignal("clk_p", Pins("T9"), IOStandard("TMDS_33")), Subsignal("clk_n", Pins("V9"), IOStandard("TMDS_33")), Subsignal("data0_p", Pins("R3"), IOStandard("TMDS_33")), Subsignal("data0_n", Pins("T3"), IOStandard("TMDS_33")), Subsignal("data1_p", Pins("T4"), IOStandard("TMDS_33")), Subsignal("data1_n", Pins("V4"), IOStandard("TMDS_33")), Subsignal("data2_p", Pins("N5"), IOStandard("TMDS_33")), Subsignal("data2_n", Pins("P6"), IOStandard("TMDS_33")), # Make sure JP2 is connected. Shared with JA. #Subsignal("scl", Pins("C13"), IOStandard("LVCMOS33")), #Subsignal("sda", Pins("A13"), IOStandard("LVCMOS33")), ), ] _io_vccb2_2v5 = [] _connectors = [ ## onboard VHDCI - FIXME # Can either run at 2.5V or 3.3V dependent on JP12 connector. # Channel 1 connects to P signals, Channel 2 to N signals # NET "VHDCIIO1<0>" LOC = "U16"; # Bank = 2, Pin name = IO_L2P_CMPCLK, Sch name = EXP-IO1_P # NET "VHDCIIO1<1>" LOC = "U15"; # Bank = 2, Pin name = *IO_L5P, Sch name = EXP-IO2_P # NET "VHDCIIO1<2>" LOC = "U13"; # Bank = 2, Pin name = IO_L14P_D11, Sch name = EXP-IO3_P # NET "VHDCIIO1<3>" LOC = "M11"; # Bank = 2, Pin name = *IO_L15P, Sch name = EXP-IO4_P # NET "VHDCIIO1<4>" LOC = "R11"; # Bank = 2, Pin name = IO_L16P, Sch name = EXP-IO5_P # NET "VHDCIIO1<5>" LOC = "T12"; # Bank = 2, Pin name = *IO_L19P, Sch name = EXP-IO6_P # NET "VHDCIIO1<6>" LOC = "N10"; # Bank = 2, Pin name = *IO_L20P, Sch name = EXP-IO7_P # NET "VHDCIIO1<7>" LOC = "M10"; # Bank = 2, Pin name = *IO_L22P, Sch name = EXP-IO8_P # NET "VHDCIIO1<8>" LOC = "U11"; # Bank = 2, Pin name = IO_L23P, Sch name = EXP-IO9_P # NET "VHDCIIO1<9>" LOC = "R10"; # Bank = 2, Pin name = IO_L29P_GCLK3, Sch name = EXP-IO10_P # NET "VHDCIIO1<10>" LOC = "U10"; # Bank = 2, Pin name = IO_L30P_GCLK1_D13, Sch name = EXP-IO11_P # NET "VHDCIIO1<11>" LOC = "R8"; # Bank = 2, Pin name = IO_L31P_GCLK31_D14, Sch name = EXP-IO12_P # NET "VHDCIIO1<12>" LOC = "M8"; # Bank = 2, Pin name = *IO_L40P, Sch name = EXP-IO13_P # NET "VHDCIIO1<13>" LOC = "U8"; # Bank = 2, Pin name = IO_L41P, Sch name = EXP-IO14_P # NET "VHDCIIO1<14>" LOC = "U7"; # Bank = 2, Pin name = IO_L43P, Sch name = EXP-IO15_P # NET "VHDCIIO1<15>" LOC = "N7"; # Bank = 2, Pin name = *IO_L44P, Sch name = EXP-IO16_P # NET "VHDCIIO1<16>" LOC = "T6"; # Bank = 2, Pin name = IO_L45P, Sch name = EXP-IO17_P # NET "VHDCIIO1<17>" LOC = "R7"; # Bank = 2, Pin name = IO_L46P, Sch name = EXP-IO18_P # NET "VHDCIIO1<18>" LOC = "N6"; # Bank = 2, Pin name = *IO_L47P, Sch name = EXP-IO19_P # NET "VHDCIIO1<19>" LOC = "U5"; # Bank = 2, Pin name = IO_49P_D3, Sch name = EXP-IO20_P # -- # NET "VHDCIIO2<0>" LOC = "V16"; # Bank = 2, Pin name = IO_L2N_CMPMOSI, Sch name = EXP-IO1_N # NET "VHDCIIO2<1>" LOC = "V15"; # Bank = 2, Pin name = *IO_L5N, Sch name = EXP-IO2_N # NET "VHDCIIO2<2>" LOC = "V13"; # Bank = 2, Pin name = IO_L14N_D12, Sch name = EXP-IO3_N # NET "VHDCIIO2<3>" LOC = "N11"; # Bank = 2, Pin name = *IO_L15N, Sch name = EXP-IO4_N # NET "VHDCIIO2<4>" LOC = "T11"; # Bank = 2, Pin name = IO_L16N_VREF, Sch name = EXP-IO5_N # NET "VHDCIIO2<5>" LOC = "V12"; # Bank = 2, Pin name = *IO_L19N, Sch name = EXP-IO6_N # NET "VHDCIIO2<6>" LOC = "P11"; # Bank = 2, Pin name = *IO_L20N, Sch name = EXP-IO7_N # NET "VHDCIIO2<7>" LOC = "N9"; # Bank = 2, Pin name = *IO_L22N, Sch name = EXP-IO8_N # NET "VHDCIIO2<8>" LOC = "V11"; # Bank = 2, Pin name = IO_L23N, Sch name = EXP-IO9_N # NET "VHDCIIO2<9>" LOC = "T10"; # Bank = 2, Pin name = IO_L29N_GCLK2, Sch name = EXP-IO10_N # NET "VHDCIIO2<10>" LOC = "V10"; # Bank = 2, Pin name = IO_L30N_GCLK0_USERCCLK, Sch name = EXP-IO11_N # NET "VHDCIIO2<11>" LOC = "T8"; # Bank = 2, Pin name = IO_L31N_GCLK30_D15, Sch name = EXP-IO12_N # NET "VHDCIIO2<12>" LOC = "N8"; # Bank = 2, Pin name = *IO_L40N, Sch name = EXP-IO13_N # NET "VHDCIIO2<13>" LOC = "V8"; # Bank = 2, Pin name = IO_L41N_VREF, Sch name = EXP-IO14_N # NET "VHDCIIO2<14>" LOC = "V7"; # Bank = 2, Pin name = IO_L43N, Sch name = EXP-IO15_N # NET "VHDCIIO2<15>" LOC = "P8"; # Bank = 2, Pin name = *IO_L44N, Sch name = EXP-IO16_N # NET "VHDCIIO2<16>" LOC = "V6"; # Bank = 2, Pin name = IO_L45N, Sch name = EXP-IO17_N # NET "VHDCIIO2<17>" LOC = "T7"; # Bank = 2, Pin name = IO_L46N, Sch name = EXP-IO18_N # NET "VHDCIIO2<18>" LOC = "P7"; # Bank = 2, Pin name = *IO_L47N, Sch name = EXP-IO19_N # NET "VHDCIIO2<19>" LOC = "V5"; # Bank = 2, Pin name = IO_49N_D4, Sch name = EXP-IO20_N ("VHDCI", { "EXP-IO1_P": "U16", "EXP-IO2_P": "U15", "EXP-IO3_P": "U13", "EXP-IO4_P": "M11", "EXP-IO5_P": "R11", "EXP-IO6_P": "T12", "EXP-IO7_P": "N10", "EXP-IO8_P": "M10", "EXP-IO9_P": "U11", "EXP-IO10_P": "R10", "EXP-IO11_P": "U10", "EXP-IO12_P": "R8", "EXP-IO13_P": "M8", "EXP-IO14_P": "U8", "EXP-IO15_P": "U7", "EXP-IO16_P": "N7", "EXP-IO17_P": "T6", "EXP-IO18_P": "R7", "EXP-IO19_P": "N6", "EXP-IO20_P": "U5", "EXP-IO1_N": "V16", "EXP-IO2_N": "V15", "EXP-IO3_N": "V13", "EXP-IO4_N": "N11", "EXP-IO5_N": "T11", "EXP-IO6_N": "V12", "EXP-IO7_N": "P11", "EXP-IO8_N": "N9", "EXP-IO9_N": "V11", "EXP-IO10_N": "T10", "EXP-IO11_N": "V10", "EXP-IO12_N": "T8", "EXP-IO13_N": "N8", "EXP-IO14_N": "V8", "EXP-IO15_N": "V7", "EXP-IO16_N": "P8", "EXP-IO17_N": "V6", "EXP-IO18_N": "T7", "EXP-IO19_N": "P7", "EXP-IO20_N": "V5", } ), ] _hdmi_infos = { "HDMI_IN0_MNEMONIC": "J1", "HDMI_IN0_DESCRIPTION" : ( " Type A connector, marked as J1, on side with USB connectors.\\r\\n" " To use J1, make sure:\\r\\n" " * JP4 has a jumper (it connects / disconnects 5V to HDMI pin 18).\\r\\n" " * JP2 (marked only as SDA/SCL - not to be confused with JP6 and JP6)\\r\\n" " has *two* jumpers (horizontally).\\r\\n" " * JP5 has a jumper (it enables the HDMI input buffer).\\r\\n" ), "HDMI_IN1_MNEMONIC": "J3", "HDMI_IN1_DESCRIPTION" : ( " Type A connector, marked as J3, between audio connectors and\\r\\n" " Ethernet RJ45 connector.\\r\\n" " To use J3, make sure:\\r\\n" " * JP8 has a jumper (it connects / disconnects 5V to HDMI pin 18)\\r\\n" " * JP6 and JP7 do *not* have any jumpers (it connect J3's and J2's\\r\\n" " EDID lines together).\\r\\n" ), "HDMI_OUT0_MNEMONIC": "J2", "HDMI_OUT0_DESCRIPTION" : ( " Type A connector, marked as J2, next to the power connector.\\r\\n" " To use J2, make sure:\\r\\n" " * JP8 has a jumper (it connects / disconnects 5V to HDMI pin 18)\\r\\n" " * JP6 and JP7 do *not* have any jumpers (it connect J3's and J2's\\r\\n" " EDID lines together).\\r\\n" ), "HDMI_OUT1_MNEMONIC": "JB", "HDMI_OUT1_DESCRIPTION" : ( " Micro-D connector, marked as JB, on the same side as switches\\r\\n" " + LEDs but on the underside of the board below MOD connector.\\r\\n" " Works as either output or input because it isn't buffered.\\r\\n" " Also often referred to as 'JA'.\\r\\n" ) } class Platform(XilinxPlatform): name = "atlys" default_clk_name = "clk100" default_clk_period = 10.0 hdmi_infos = _hdmi_infos # https://reference.digilentinc.com/atlys:atlys:refmanual#flash_memory # The Atlys has a XC6SLX45 which bitstream takes up ~12Mbit (1484472 bytes) # 0x200000 offset (16Mbit) gives plenty of space gateware_size = 0x200000 # Micron N25Q128 (ID 0x0018ba20) # FIXME: Create a "spi flash module" object in the same way we have SDRAM # module objects. spiflash_model = "n25q128" spiflash_read_dummy_bits = 10 spiflash_clock_div = 4 spiflash_total_size = int((128/8)*1024*1024) # 128Mbit spiflash_page_size = 256 spiflash_sector_size = 0x10000 def __init__(self, programmer="openocd", vccb2_voltage="VCC3V3"): # Some IO configurations only work at certain vccb2 voltages. if vccb2_voltage == "VCC3V3": _io.extend(_io_vccb2_3v3) elif vccb2_voltage == "VCC2V5": _io.extend(_io_vccb2_2v5) else: raise SystemError("Unknown vccb2_voltage=%r" % vccb2_voltage) # Resolve the LVCMOS_BANK2 voltage level before anything uses the _io # definition. LVCMOS_BANK2.set(vccb2_voltage) # XC6SLX45-2CSG324C XilinxPlatform.__init__(self, "xc6slx45-csg324-3", _io, _connectors) self.programmer = programmer # FPGA AUX is connected to the 3.3V supply on the Atlys self.add_platform_command("""CONFIG VCCAUX="3.3";""") def create_programmer(self): # Preferred programmer - Needs ixo-usb-jtag and latest openocd. proxy="bscan_spi_{}.bit".format(self.device.split('-')[0]) if self.programmer == "openocd": return OpenOCD(config="board/digilent_atlys.cfg", flash_proxy_basename=proxy) # Alternative programmers - not regularly tested. elif self.programmer == "xc3sprog": return XC3SProg("jtaghs1_fast", "bscan_spi_digilent_atlys.bit") elif self.programmer == "impact": return iMPACT() elif self.programmer == "adept": return Adept("Atlys", 0) elif self.programmer == "fpgalink": from mibuild.fpgalink_programmer import FPGALink return FPGALink("1443:0007") elif self.programmer == "urjtag": return UrJTAG(cable="USBBlaster", pld="spartan-6") else: raise ValueError("{} programmer is not supported".format(self.programmer)) def do_finalize(self, fragment): XilinxPlatform.do_finalize(self, fragment) # The oscillator clock sources. try: self.add_period_constraint(self.lookup_request("clk100"), 10.0) except ConstraintError: pass # HDMI input clock pins. for i in range(2): try: self.add_period_constraint(self.lookup_request("hdmi_in", i).clk_p, 12) except ConstraintError: pass # Ethernet input clock pins. try: self.add_period_constraint(self.lookup_request("eth_clocks").rx, 40.0) except ConstraintError: pass # USB input clock pins. try: self.add_period_constraint(self.lookup_request("fx2").ifclk, 10) except ConstraintError: pass