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-
- /*******************************************************************************
- Verilog netlist generated by IPGEN Lattice Radiant Software (64-bit)
- 3.1.1.232.1
- Soft IP Version: 1.0.0
- 2022 05 31 12:27:15
- *******************************************************************************/
- /*******************************************************************************
- Wrapper Module generated per user settings.
- *******************************************************************************/
- module spi_interface (spi1_miso_io,
- spi1_mosi_io,
- spi1_sck_io,
- spi1_scs_n_i,
- spi1_mcs_n_o,
- rst_i,
- ipload_i,
- ipdone_o,
- sb_clk_i,
- sb_wr_i,
- sb_stb_i,
- sb_adr_i,
- sb_dat_i,
- sb_dat_o,
- sb_ack_o,
- spi_pirq_o,
- spi_pwkup_o) ;
- inout spi1_miso_io ;
- inout spi1_mosi_io ;
- inout spi1_sck_io ;
- input spi1_scs_n_i ;
- output [3:0] spi1_mcs_n_o ;
- input rst_i ;
- input ipload_i ;
- output ipdone_o ;
- input sb_clk_i ;
- input sb_wr_i ;
- input sb_stb_i ;
- input [7:0] sb_adr_i ;
- input [7:0] sb_dat_i ;
- output [7:0] sb_dat_o ;
- output sb_ack_o ;
- output [1:0] spi_pirq_o ;
- output [1:0] spi_pwkup_o ;
- spi_interface_ipgen_lscc_spi_i2c #(.i2c_left_enable(0),
- .i2c_right_enable(0),
- .spi_left_enable(0),
- .spi_right_enable(1),
- .FREQUENCY_PIN_SBCLKI("12.0"),
- .I2C_LEFT_CLK_PRESCALE("29"),
- .I2C_LEFT_CLK_DIVIDER(120),
- .I2C_LEFT_SLAVE_INIT_ADDR("0b1111101"),
- .I2C_LEFT_SDA_INPUT_DELAYED("1"),
- .I2C_LEFT_SDA_OUTPUT_DELAYED("0"),
- .I2C_LEFT_INIT_VALUE_0(128),
- .I2C_LEFT_INIT_VALUE_1(31),
- .I2C_LEFT_INIT_VALUE_2(0),
- .I2C_RIGHT_CLK_PRESCALE("29"),
- .I2C_RIGHT_CLK_DIVIDER(120),
- .I2C_RIGHT_SLAVE_INIT_ADDR("0b1111110"),
- .I2C_RIGHT_SDA_INPUT_DELAYED("1"),
- .I2C_RIGHT_SDA_OUTPUT_DELAYED("0"),
- .I2C_RIGHT_INIT_VALUE_5(128),
- .I2C_RIGHT_INIT_VALUE_6(31),
- .I2C_RIGHT_INIT_VALUE_7(0),
- .SPI_LEFT_CLK_DIVIDER(1),
- .SPI_LEFT_CLK_PRESCALE("0"),
- .SPI_LEFT_MASTER_CHIP_SELECTS(1),
- .SPI_LEFT_WAKEUP_ENABLE(1),
- .SPI_LEFT_INIT_VALUE_10(8),
- .SPI_LEFT_INIT_VALUE_13(0),
- .SPI_RIGHT_CLK_DIVIDER(1),
- .SPI_RIGHT_CLK_PRESCALE("0"),
- .SPI_RIGHT_MASTER_CHIP_SELECTS(3),
- .SPI_RIGHT_WAKEUP_ENABLE(0),
- .SPI_RIGHT_INIT_VALUE_15(12),
- .SPI_RIGHT_INIT_VALUE_18(128)) lscc_spi_i2c_inst (.i2c2_scl_io(),
- .i2c2_sda_io(),
- .i2c1_scl_io(),
- .i2c1_sda_io(),
- .spi2_miso_io(),
- .spi2_mosi_io(),
- .spi2_sck_io(),
- .spi2_scs_n_i(1'b0),
- .spi2_mcs_n_o(),
- .spi1_miso_io(spi1_miso_io),
- .spi1_mosi_io(spi1_mosi_io),
- .spi1_sck_io(spi1_sck_io),
- .spi1_scs_n_i(spi1_scs_n_i),
- .spi1_mcs_n_o(spi1_mcs_n_o[3:0]),
- .rst_i(rst_i),
- .ipload_i(ipload_i),
- .ipdone_o(ipdone_o),
- .sb_clk_i(sb_clk_i),
- .sb_wr_i(sb_wr_i),
- .sb_stb_i(sb_stb_i),
- .sb_adr_i(sb_adr_i[7:0]),
- .sb_dat_i(sb_dat_i[7:0]),
- .sb_dat_o(sb_dat_o[7:0]),
- .sb_ack_o(sb_ack_o),
- .i2c_pirq_o(),
- .i2c_pwkup_o(),
- .spi_pirq_o(spi_pirq_o[1:0]),
- .spi_pwkup_o(spi_pwkup_o[1:0])) ;
- endmodule
-
-
-
- `timescale 1ns/1ns
- // =============================================================================
- // >>>>>>>>>>>>>>>>>>>>>>>>> COPYRIGHT NOTICE <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
- // -----------------------------------------------------------------------------
- // Copyright (c) 2017 by Lattice Semiconductor Corporation
- // ALL RIGHTS RESERVED
- // -----------------------------------------------------------------------------
- //
- // Permission:
- //
- // Lattice SG Pte. Ltd. grants permission to use this code
- // pursuant to the terms of the Lattice Reference Design License Agreement.
- //
- //
- // Disclaimer:
- //
- // This VHDL or Verilog source code is intended as a design reference
- // which illustrates how these types of functions can be implemented.
- // It is the user's responsibility to verify their design for
- // consistency and functionality through the use of formal
- // verification methods. Lattice provides no warranty
- // regarding the use or functionality of this code.
- //
- // -----------------------------------------------------------------------------
- //
- // Lattice SG Pte. Ltd.
- // 101 Thomson Road, United Square #07-02
- // Singapore 307591
- //
- //
- // TEL: 1-800-Lattice (USA and Canada)
- // +65-6631-2000 (Singapore)
- // +1-503-268-8001 (other locations)
- //
- // web: http://www.latticesemi.com/
- // email: techsupport@latticesemi.com
- //
- // -----------------------------------------------------------------------------
- //
- // =============================================================================
- // FILE DETAILS
- // Project :
- // File : lscc_spi_i2c.v
- // Title :
- // Dependencies : I2C_B primitive
- // : SPI_B primitive
- // Description :
- // =============================================================================
- // REVISION HISTORY
- // Version : 1.0.0.
- // Author(s) :
- // Mod. Date :
- // Changes Made : Initial release.
- // =============================================================================
- module spi_interface_ipgen_lscc_spi_i2c #(parameter num_regs = 23,
- parameter i2c_left_enable = 0,
- parameter i2c_right_enable = 0,
- parameter spi_left_enable = 0,
- parameter spi_right_enable = 0,
- parameter FREQUENCY_PIN_SBCLKI = "NONE",
- parameter I2C_LEFT_CLK_DIVIDER = 8,
- parameter I2C_LEFT_CLK_PRESCALE = "1",
- parameter I2C_LEFT_INIT_VALUE_0 = 0,
- parameter I2C_LEFT_INIT_VALUE_1 = 0,
- parameter I2C_LEFT_INIT_VALUE_2 = 0,
- parameter I2C_LEFT_SLAVE_INIT_ADDR = "0b1111100001",
- parameter I2C_LEFT_SDA_INPUT_DELAYED = "1",
- parameter I2C_LEFT_SDA_OUTPUT_DELAYED = "0",
- parameter I2C_RIGHT_CLK_DIVIDER = 8,
- parameter I2C_RIGHT_CLK_PRESCALE = "1",
- parameter I2C_RIGHT_INIT_VALUE_5 = 0,
- parameter I2C_RIGHT_INIT_VALUE_6 = 0,
- parameter I2C_RIGHT_INIT_VALUE_7 = 0,
- parameter I2C_RIGHT_SLAVE_INIT_ADDR = "0b1111100010",
- parameter I2C_RIGHT_SDA_INPUT_DELAYED = "1",
- parameter I2C_RIGHT_SDA_OUTPUT_DELAYED = "0",
- parameter SPI_LEFT_INIT_VALUE_10 = 0,
- parameter SPI_LEFT_INIT_VALUE_13 = 0,
- parameter SPI_RIGHT_INIT_VALUE_15 = 0,
- parameter SPI_RIGHT_INIT_VALUE_18 = 0,
- parameter SPI_LEFT_WAKEUP_ENABLE = 1,
- parameter SPI_LEFT_CLK_DIVIDER = 2,
- parameter SPI_LEFT_CLK_PRESCALE = "1",
- parameter SPI_LEFT_MASTER_CHIP_SELECTS = 1,
- parameter SPI_RIGHT_WAKEUP_ENABLE = 1,
- parameter SPI_RIGHT_CLK_DIVIDER = 2,
- parameter SPI_RIGHT_CLK_PRESCALE = "1",
- parameter SPI_RIGHT_MASTER_CHIP_SELECTS = 1) (
- // -----------------------------------------------------------------------------
- // Module Parameters
- // -----------------------------------------------------------------------------
- // (I2C_LEFT_CLK_PRESCALE+1) * 4
- // (1 - 1023)
- // (I2C_RIGHT_CLK_PRESCALE+1) * 4
- // (1 - 1023)
- // SPI_LEFT_CLK_PRESCALE + 1
- // (1 - 63)
- // SPI_RIGHT_CLK_PRESCALE + 1
- // (1 - 63)
- // -----------------------------------------------------------------------------
- // Input/Output Ports
- // -----------------------------------------------------------------------------
- // I2C Left
- inout wire i2c2_scl_io,
- inout wire i2c2_sda_io,
- // I2c Right
- inout wire i2c1_scl_io,
- inout wire i2c1_sda_io,
- // SPI Left
- inout wire spi2_miso_io,
- inout wire spi2_mosi_io,
- inout wire spi2_sck_io,
- input wire spi2_scs_n_i,
- output wire [3:0] spi2_mcs_n_o,
- // SPI Right
- inout wire spi1_miso_io,
- inout wire spi1_mosi_io,
- inout wire spi1_sck_io,
- input wire spi1_scs_n_i,
- output wire [3:0] spi1_mcs_n_o,
- // Fabric Interface
- input wire rst_i,
- input wire ipload_i,
- output wire ipdone_o,
- input wire sb_clk_i,
- input wire sb_wr_i,
- input wire sb_stb_i,
- input wire [7:0] sb_adr_i,
- input wire [7:0] sb_dat_i,
- output wire [7:0] sb_dat_o,
- output wire sb_ack_o,
- output wire [1:0] i2c_pirq_o,
- output wire [1:0] i2c_pwkup_o,
- output wire [1:0] spi_pirq_o,
- output wire [1:0] spi_pwkup_o) ;
- // -----------------------------------------------------------------------------
- // Local Parameters
- // -----------------------------------------------------------------------------
- localparam RSVD = 8'hFF ;
- // I2C Base Address
- localparam I2CBADDRL = 4'b0001 ; // I2C LEFT
- localparam I2CBADDRR = 4'b0011 ; // I2C RIGHT
- // I2C Register Address
- localparam I2CCR1 = 4'b1000 ; // I2C Control Register 1
- localparam I2CCMDR = 4'b1001 ; // I2C Command Register
- localparam I2CBRLSB = 4'b1010 ; // I2C Clock Presale register, LSB
- localparam I2CBRMSB = 4'b1011 ; // I2C Clock Presale register, MSB
- localparam I2CSR = 4'b1100 ; // I2C Status Register
- localparam I2CTXDR = 4'b1101 ; // I2C Transmitting Data Register
- localparam I2CRXDR = 4'b1110 ; // I2C Receiving Data Register
- localparam I2CGCDR = 4'b1111 ; // I2C General Call Information Register
- localparam I2CINTCR = 4'b0111 ; // I2C Interrupt Control Register
- localparam I2CINTSR = 4'b0110 ; // I2C Interrupt Status Register
- localparam I2CSADDR = 4'b0011 ; // I2C Slave address MSB
- // SPI Base Address
- localparam SPIBADDRL = 4'b0000 ; // SPI LEFT
- localparam SPIBADDRR = 4'b0010 ; // SPI RIGHT
- // SPI Register Address
- localparam SPICR0 = 4'b1000 ; // SPI Control Register0
- localparam SPICR1 = 4'b1001 ; // SPI Control Register1
- localparam SPICR2 = 4'b1010 ; // SPI Control Register2
- localparam SPIBR = 4'b1011 ; // SPI Baud Rate Register
- localparam SPISR = 4'b1100 ; // SPI Status Register
- localparam SPITXDR = 4'b1101 ; // SPI Transmitting Data Register
- localparam SPIRXDR = 4'b1110 ; // SPI Receiving Data Register
- localparam SPICSR = 4'b1111 ; // SPI Chip Select Mask for Master Mode
- localparam SPIINTCR = 4'b0111 ; // SPI Interrupt Control Register
- localparam SPIINTSR = 4'b0110 ; // SPI Interrupt Status Register
- // -----------------------------------------------------------------------------
- // Combinatorial/Sequential Registers
- // -----------------------------------------------------------------------------
- reg [7:0] SBDATo_i ;
- reg load_d1 ;
- reg load_d2 ;
- reg start ;
- reg pup ;
- reg run ;
- reg [5:0] trans_count ;
- reg IPDONE_i ;
- reg sb_idle ;
- reg strobe ;
- reg wb_we_ix ;
- reg wb_stb_ix ;
- reg [7:0] wb_adr_ix ;
- reg [7:0] wb_dat_ix ;
- reg [5:0] start_count ;
- reg [5:0] next_count ;
- // -----------------------------------------------------------------------------
- // Wire Declarations
- // -----------------------------------------------------------------------------
- wire hard_SBWRi ;
- wire hard_SBSTBi ;
- wire [7:0] hard_SBADRi ;
- wire [7:0] hard_SBDATi ;
- wire hard00_SBACKO ;
- wire hard01_SBACKO ;
- wire hard10_SBACKO ;
- wire hard11_SBACKO ;
- wire [3:0] hard_ACKs ;
- wire SBACKo_i ;
- wire [7:0] hard00_SBDATo ;
- wire [7:0] hard01_SBDATo ;
- wire [7:0] hard10_SBDATo ;
- wire [7:0] hard11_SBDATo ;
- wire ssm_SBWRi ;
- wire ssm_SBSTBi ;
- wire [7:0] ssm_SBADRi ;
- wire [7:0] ssm_SBDATi ;
- wire I2C2_SCLo ;
- wire I2C2_SCLoe ;
- wire I2C2_SCLi ;
- wire I2C2_SDAo ;
- wire I2C2_SDAoe ;
- wire I2C2_SDAi ;
- wire I2C1_SCLo ;
- wire I2C1_SCLoe ;
- wire I2C1_SCLi ;
- wire I2C1_SDAo ;
- wire I2C1_SDAoe ;
- wire I2C1_SDAi ;
- wire SPI2_SO ;
- wire SPI2_SOoe ;
- wire SPI2_MI ;
- wire SPI2_MO ;
- wire SPI2_MOoe ;
- wire SPI2_SI ;
- wire SPI2_SCKo ;
- wire SPI2_SCKoe ;
- wire SPI2_SCKi ;
- wire SPI2_SCSNi ;
- wire [3:0] SPI2_MCSNo ;
- wire [3:0] SPI2_MCSNoe ;
- wire SPI1_SO ;
- wire SPI1_SOoe ;
- wire SPI1_MI ;
- wire SPI1_MO ;
- wire SPI1_MOoe ;
- wire SPI1_SI ;
- wire SPI1_SCKo ;
- wire SPI1_SCKoe ;
- wire SPI1_SCKi ;
- wire SPI1_SCSNi ;
- wire [3:0] SPI1_MCSNo ;
- wire [3:0] SPI1_MCSNoe ;
- wire [7:0] init_value [0:(num_regs - 1)] ;
- wire [7:0] init_addr [0:(num_regs - 1)] ;
- wire [11:0] i2c_left_prescale ;
- wire [11:0] i2c_right_prescale ;
- // -----------------------------------------------------------------------------
- // Assign Statements
- // -----------------------------------------------------------------------------
- assign i2c_left_prescale = ((I2C_LEFT_CLK_DIVIDER > 4) ? (I2C_LEFT_CLK_DIVIDER - 4) : 0) ;
- assign i2c_right_prescale = ((I2C_RIGHT_CLK_DIVIDER > 4) ? (I2C_RIGHT_CLK_DIVIDER - 4) : 0) ;
- assign init_value[0] = I2C_LEFT_INIT_VALUE_0 ;
- assign init_value[1] = I2C_LEFT_INIT_VALUE_1 ;
- assign init_value[2] = I2C_LEFT_INIT_VALUE_2 ;
- assign init_value[3] = i2c_left_prescale[9:2] ;
- assign init_value[4] = {6'd0,
- i2c_left_prescale[11:10]} ;
- assign init_value[5] = I2C_RIGHT_INIT_VALUE_5 ;
- assign init_value[6] = I2C_RIGHT_INIT_VALUE_6 ;
- assign init_value[7] = I2C_RIGHT_INIT_VALUE_7 ;
- assign init_value[8] = i2c_right_prescale[9:2] ;
- assign init_value[9] = {6'd0,
- i2c_right_prescale[11:10]} ;
- assign init_value[10] = {3'd0,
- SPI_LEFT_INIT_VALUE_10[3:0],
- 1'b0} ;
- assign init_value[11] = {4'd0,
- SPI_LEFT_MASTER_CHIP_SELECTS[3:0]} ;
- assign init_value[12] = {1'b1,
- SPI_LEFT_WAKEUP_ENABLE[0],
- 6'd0} ;
- assign init_value[13] = (SPI_LEFT_INIT_VALUE_13 & 8'hA7) ; // 8'hA7 - masks reserved bits
- assign init_value[14] = (SPI_LEFT_CLK_DIVIDER - 1) ;
- assign init_value[15] = {3'd0,
- SPI_RIGHT_INIT_VALUE_15[3:0],
- 1'b0} ;
- assign init_value[16] = {4'd0,
- SPI_RIGHT_MASTER_CHIP_SELECTS[3:0]} ;
- assign init_value[17] = {1'b1,
- SPI_RIGHT_WAKEUP_ENABLE[0],
- 6'd0} ;
- assign init_value[18] = (SPI_RIGHT_INIT_VALUE_18 & 8'hA7) ; // 8'hA7 - masks reserved bits
- assign init_value[19] = (SPI_RIGHT_CLK_DIVIDER - 1) ;
- assign init_value[20] = RSVD ;
- assign init_value[21] = RSVD ;
- assign init_value[22] = RSVD ;
- assign init_addr[20] = RSVD ;
- assign init_addr[21] = RSVD ;
- assign init_addr[22] = RSVD ;
- // SYSTEM BUS multiplexing
- assign hard_SBWRi = (IPDONE_i ? sb_wr_i : ssm_SBWRi) ;
- assign hard_SBSTBi = (IPDONE_i ? sb_stb_i : ssm_SBSTBi) ;
- assign hard_SBADRi = (IPDONE_i ? sb_adr_i : ssm_SBADRi) ;
- assign hard_SBDATi = (IPDONE_i ? sb_dat_i : ssm_SBDATi) ;
- // {i2c_right, spi_righ, i2c_left, spi_left}
- assign hard_ACKs = {hard11_SBACKO,
- hard10_SBACKO,
- hard01_SBACKO,
- hard00_SBACKO} ;
- assign SBACKo_i = (|hard_ACKs) ;
- // Initialization SSM outputs
- assign ssm_SBWRi = 1 ; // All transaction are WRITE
- assign ssm_SBSTBi = strobe ;
- assign ssm_SBADRi = init_addr[trans_count] ;
- assign ssm_SBDATi = init_value[trans_count] ;
- assign sb_dat_o = SBDATo_i ;
- assign sb_ack_o = (SBACKo_i && IPDONE_i) ;
- assign ipdone_o = IPDONE_i ;
- // -----------------------------------------------------------------------------
- // Generate Assign Statements
- // -----------------------------------------------------------------------------
- generate
- if ((i2c_left_enable == 1))
- begin : genblk1
- assign init_addr[0] = {I2CBADDRL,
- I2CCR1} ;
- assign init_addr[1] = {I2CBADDRL,
- I2CSADDR} ;
- assign init_addr[2] = {I2CBADDRL,
- I2CINTCR} ;
- assign init_addr[3] = {I2CBADDRL,
- I2CBRLSB} ;
- assign init_addr[4] = {I2CBADDRL,
- I2CBRMSB} ;
- end
- else
- begin : genblk1
- assign init_addr[0] = RSVD ;
- assign init_addr[1] = RSVD ;
- assign init_addr[2] = RSVD ;
- assign init_addr[3] = RSVD ;
- assign init_addr[4] = RSVD ;
- end
- if ((i2c_right_enable == 1))
- begin : genblk2
- assign init_addr[5] = {I2CBADDRR,
- I2CCR1} ;
- assign init_addr[6] = {I2CBADDRR,
- I2CSADDR} ;
- assign init_addr[7] = {I2CBADDRR,
- I2CINTCR} ;
- assign init_addr[8] = {I2CBADDRR,
- I2CBRLSB} ;
- assign init_addr[9] = {I2CBADDRR,
- I2CBRMSB} ;
- end
- else
- begin : genblk2
- assign init_addr[5] = RSVD ;
- assign init_addr[6] = RSVD ;
- assign init_addr[7] = RSVD ;
- assign init_addr[8] = RSVD ;
- assign init_addr[9] = RSVD ;
- end
- if ((spi_left_enable == 1))
- begin : genblk3
- assign init_addr[10] = {SPIBADDRL,
- SPIINTCR} ;
- assign init_addr[11] = {SPIBADDRL,
- SPICSR} ;
- assign init_addr[12] = {SPIBADDRL,
- SPICR1} ;
- assign init_addr[13] = {SPIBADDRL,
- SPICR2} ;
- assign init_addr[14] = {SPIBADDRL,
- SPIBR} ;
- end
- else
- begin : genblk3
- assign init_addr[10] = RSVD ;
- assign init_addr[11] = RSVD ;
- assign init_addr[12] = RSVD ;
- assign init_addr[13] = RSVD ;
- assign init_addr[14] = RSVD ;
- end
- if ((spi_right_enable == 1))
- begin : genblk4
- assign init_addr[15] = {SPIBADDRR,
- SPIINTCR} ;
- assign init_addr[16] = {SPIBADDRR,
- SPICSR} ;
- assign init_addr[17] = {SPIBADDRR,
- SPICR1} ;
- assign init_addr[18] = {SPIBADDRR,
- SPICR2} ;
- assign init_addr[19] = {SPIBADDRR,
- SPIBR} ;
- end
- else
- begin : genblk4
- assign init_addr[15] = RSVD ;
- assign init_addr[16] = RSVD ;
- assign init_addr[17] = RSVD ;
- assign init_addr[18] = RSVD ;
- assign init_addr[19] = RSVD ;
- end
- endgenerate
- generate
- if ((i2c_left_enable == 1))
- begin : genblk5
- assign i2c2_scl_io = (I2C2_SCLoe ? I2C2_SCLo : 1'bZ) ;
- assign i2c2_sda_io = (I2C2_SDAoe ? I2C2_SDAo : 1'bZ) ;
- assign I2C2_SCLi = i2c2_scl_io ;
- assign I2C2_SDAi = i2c2_sda_io ;
- end
- if ((i2c_right_enable == 1))
- begin : genblk6
- assign i2c1_scl_io = (I2C1_SCLoe ? I2C1_SCLo : 1'bZ) ;
- assign i2c1_sda_io = (I2C1_SDAoe ? I2C1_SDAo : 1'bZ) ;
- assign I2C1_SCLi = i2c1_scl_io ;
- assign I2C1_SDAi = i2c1_sda_io ;
- end
- if ((spi_left_enable == 1))
- begin : genblk7
- assign spi2_miso_io = (SPI2_SOoe ? SPI2_SO : 1'bZ) ;
- assign SPI2_MI = spi2_miso_io ;
- assign spi2_mosi_io = (SPI2_MOoe ? SPI2_MO : 1'bZ) ;
- assign SPI2_SI = spi2_mosi_io ;
- assign spi2_sck_io = (SPI2_SCKoe ? SPI2_SCKo : 1'bZ) ;
- assign SPI2_SCKi = spi2_sck_io ;
- assign SPI2_SCSNi = spi2_scs_n_i ;
- assign spi2_mcs_n_o[3] = (SPI2_MCSNoe[3] ? SPI2_MCSNo[3] : 1'bZ) ;
- assign spi2_mcs_n_o[2] = (SPI2_MCSNoe[2] ? SPI2_MCSNo[2] : 1'bZ) ;
- assign spi2_mcs_n_o[1] = (SPI2_MCSNoe[1] ? SPI2_MCSNo[1] : 1'bZ) ;
- assign spi2_mcs_n_o[0] = (SPI2_MCSNoe[0] ? SPI2_MCSNo[0] : 1'bZ) ;
- end
- if ((spi_right_enable == 1))
- begin : genblk8
- assign spi1_miso_io = (SPI1_SOoe ? SPI1_SO : 1'bZ) ;
- assign SPI1_MI = spi1_miso_io ;
- assign spi1_mosi_io = (SPI1_MOoe ? SPI1_MO : 1'bZ) ;
- assign SPI1_SI = spi1_mosi_io ;
- assign spi1_sck_io = (SPI1_SCKoe ? SPI1_SCKo : 1'bZ) ;
- assign SPI1_SCKi = spi1_sck_io ;
- assign SPI1_SCSNi = spi1_scs_n_i ;
- assign spi1_mcs_n_o[3] = (SPI1_MCSNoe[3] ? SPI1_MCSNo[3] : 1'bZ) ;
- assign spi1_mcs_n_o[2] = (SPI1_MCSNoe[2] ? SPI1_MCSNo[2] : 1'bZ) ;
- assign spi1_mcs_n_o[1] = (SPI1_MCSNoe[1] ? SPI1_MCSNo[1] : 1'bZ) ;
- assign spi1_mcs_n_o[0] = (SPI1_MCSNoe[0] ? SPI1_MCSNo[0] : 1'bZ) ;
- end
- endgenerate
- // -----------------------------------------------------------------------------
- // Combinatorial Blocks
- // -----------------------------------------------------------------------------
- always
- @(*)
- begin
- wb_we_ix = hard_SBWRi ;
- end
- always
- @(*)
- begin
- wb_stb_ix = hard_SBSTBi ;
- end
- always
- @(*)
- begin
- wb_adr_ix = hard_SBADRi ;
- end
- always
- @(*)
- begin
- wb_dat_ix = hard_SBDATi ;
- end
- //-----------------------------------------------------------------------------
- // DATo mux
- //-----------------------------------------------------------------------------
- always
- @(*)
- begin
- case (hard_ACKs)
- 4'b1000 :
- SBDATo_i = hard11_SBDATo ;
- 4'b0100 :
- SBDATo_i = hard10_SBDATo ;
- 4'b0010 :
- SBDATo_i = hard01_SBDATo ;
- 4'b0001 :
- SBDATo_i = hard00_SBDATo ;
- default :
- SBDATo_i = 8'b0 ;
- endcase
- end
- //-----------------------------------------------------------------------------
- // Initialization SSM control: Start, Run, Done
- //-----------------------------------------------------------------------------
- always
- @(posedge sb_clk_i or
- posedge rst_i)
- begin
- if (rst_i)
- begin
- load_d1 <= 0 ;
- load_d2 <= 0 ;
- start <= 0 ;
- pup <= 1 ;
- run <= 0 ;
- trans_count <= 0 ;
- IPDONE_i <= 0 ;
- end
- else
- begin
- load_d1 <= (ipload_i || pup) ;
- load_d2 <= load_d1 ;
- start <= (load_d1 && (!load_d2)) ;// rising-edge detection
- if (start) // clear power-up launch flag
- pup <= 0 ;
- if (start)
- run <= 1 ;
- else
- // start init sequence
- if (IPDONE_i) // clear when init complete
- run <= 0 ;
- // reset control upon Start
- if (start)
- begin
- trans_count <= start_count ;
- IPDONE_i <= 0 ;
- end
- else
- // DONE
- if ((init_addr[trans_count] == 8'hFF))
- begin
- IPDONE_i <= 1 ;
- end
- else
- // increment if not DONE
- if (SBACKo_i)
- begin
- trans_count <= next_count ;
- end
- end
- end
- always
- @(*)
- begin
- start_count = (i2c_left_enable ? 6'd0 : (i2c_right_enable ? 6'd5 : (spi_left_enable ? 6'd10 : (spi_right_enable ? 6'd15 : 6'd20)))) ;
- next_count = ((((trans_count + 1) < 6'd20) && (init_addr[(trans_count + 1)] != 8'hFF)) ? (trans_count + 1) : ((((trans_count + 6) < 6'd20) && (init_addr[(trans_count + 6)] != 8'hFF)) ? (trans_count + 6) : ((((trans_count + 11) < 6'd20) && (init_addr[(trans_count + 11)] != 8'hFF)) ? (trans_count + 11) : 6'd20))) ;
- end//--always @*--
- //-----------------------------------------------------------------------------
- // System Bus transaction control
- // Assert stb until EFB acknowledges with sb_ack_o
- //-----------------------------------------------------------------------------
- always
- @(posedge sb_clk_i or
- posedge rst_i)
- begin
- if (rst_i)
- begin
- sb_idle <= 1 ;
- strobe <= 0 ;
- end
- else
- begin
- // Assert stb signals to start SB transaction
- if (sb_idle)
- begin
- if (run)
- begin
- // delay 1 ns to avoid simulation/hardware mismatch
- strobe <= #(1) 1 ;
- sb_idle <= 0 ;
- end
- end
- else
- // Monitor sb_ack_o for end of transaction
- begin
- if ((SBACKo_i | (!run)))
- begin
- strobe <= 0 ;
- sb_idle <= 1 ;
- end
- end
- end
- end
- // -----------------------------------------------------------------------------
- // Submodule Instantiations
- // -----------------------------------------------------------------------------
- generate
- if ((i2c_left_enable == 1))
- begin : genblk9
- I2C_B #(.I2C_SLAVE_INIT_ADDR(I2C_LEFT_SLAVE_INIT_ADDR),
- .BUS_ADDR74("0b0001"),
- .I2C_CLK_DIVIDER(I2C_LEFT_CLK_PRESCALE),
- .FREQUENCY_PIN_SBCLKI(FREQUENCY_PIN_SBCLKI),
- .SDA_INPUT_DELAYED(I2C_LEFT_SDA_INPUT_DELAYED),
- .SDA_OUTPUT_DELAYED(I2C_LEFT_SDA_OUTPUT_DELAYED)) u_I2C_B_INST_LT (.SBCLKI(sb_clk_i),
- .SBRWI(wb_we_ix),
- .SBSTBI(wb_stb_ix),
- .SBADRI7(wb_adr_ix[7]),
- .SBADRI6(wb_adr_ix[6]),
- .SBADRI5(wb_adr_ix[5]),
- .SBADRI4(wb_adr_ix[4]),
- .SBADRI3(wb_adr_ix[3]),
- .SBADRI2(wb_adr_ix[2]),
- .SBADRI1(wb_adr_ix[1]),
- .SBADRI0(wb_adr_ix[0]),
- .SBDATI7(wb_dat_ix[7]),
- .SBDATI6(wb_dat_ix[6]),
- .SBDATI5(wb_dat_ix[5]),
- .SBDATI4(wb_dat_ix[4]),
- .SBDATI3(wb_dat_ix[3]),
- .SBDATI2(wb_dat_ix[2]),
- .SBDATI1(wb_dat_ix[1]),
- .SBDATI0(wb_dat_ix[0]),
- .SCLI(I2C2_SCLi),
- .SDAI(I2C2_SDAi),
- .SBDATO7(hard01_SBDATo[7]),
- .SBDATO6(hard01_SBDATo[6]),
- .SBDATO5(hard01_SBDATo[5]),
- .SBDATO4(hard01_SBDATo[4]),
- .SBDATO3(hard01_SBDATo[3]),
- .SBDATO2(hard01_SBDATo[2]),
- .SBDATO1(hard01_SBDATo[1]),
- .SBDATO0(hard01_SBDATo[0]),
- .SBACKO(hard01_SBACKO),
- .I2CIRQ(i2c_pirq_o[0]),
- .I2CWKUP(i2c_pwkup_o[0]),
- .SCLO(I2C2_SCLo),
- .SCLOE(I2C2_SCLoe),
- .SDAO(I2C2_SDAo),
- .SDAOE(I2C2_SDAoe)) ;
- end
- else
- begin : genblk9
- assign hard01_SBDATo[7] = 1'b0 ;
- assign hard01_SBDATo[6] = 1'b0 ;
- assign hard01_SBDATo[5] = 1'b0 ;
- assign hard01_SBDATo[4] = 1'b0 ;
- assign hard01_SBDATo[3] = 1'b0 ;
- assign hard01_SBDATo[2] = 1'b0 ;
- assign hard01_SBDATo[1] = 1'b0 ;
- assign hard01_SBDATo[0] = 1'b0 ;
- assign hard01_SBACKO = 1'b0 ;
- assign i2c_pirq_o[0] = 1'b0 ;
- assign i2c_pwkup_o[0] = 1'b0 ;
- end
- if ((i2c_right_enable == 1))
- begin : genblk10
- I2C_B #(.I2C_SLAVE_INIT_ADDR(I2C_RIGHT_SLAVE_INIT_ADDR),
- .BUS_ADDR74("0b0011"),
- .I2C_CLK_DIVIDER(I2C_RIGHT_CLK_PRESCALE),
- .FREQUENCY_PIN_SBCLKI(FREQUENCY_PIN_SBCLKI),
- .SDA_INPUT_DELAYED(I2C_RIGHT_SDA_INPUT_DELAYED),
- .SDA_OUTPUT_DELAYED(I2C_RIGHT_SDA_OUTPUT_DELAYED)) u_I2C_B_INST_RT (.SBCLKI(sb_clk_i),
- .SBRWI(wb_we_ix),
- .SBSTBI(wb_stb_ix),
- .SBADRI7(wb_adr_ix[7]),
- .SBADRI6(wb_adr_ix[6]),
- .SBADRI5(wb_adr_ix[5]),
- .SBADRI4(wb_adr_ix[4]),
- .SBADRI3(wb_adr_ix[3]),
- .SBADRI2(wb_adr_ix[2]),
- .SBADRI1(wb_adr_ix[1]),
- .SBADRI0(wb_adr_ix[0]),
- .SBDATI7(wb_dat_ix[7]),
- .SBDATI6(wb_dat_ix[6]),
- .SBDATI5(wb_dat_ix[5]),
- .SBDATI4(wb_dat_ix[4]),
- .SBDATI3(wb_dat_ix[3]),
- .SBDATI2(wb_dat_ix[2]),
- .SBDATI1(wb_dat_ix[1]),
- .SBDATI0(wb_dat_ix[0]),
- .SCLI(I2C1_SCLi),
- .SDAI(I2C1_SDAi),
- .SBDATO7(hard11_SBDATo[7]),
- .SBDATO6(hard11_SBDATo[6]),
- .SBDATO5(hard11_SBDATo[5]),
- .SBDATO4(hard11_SBDATo[4]),
- .SBDATO3(hard11_SBDATo[3]),
- .SBDATO2(hard11_SBDATo[2]),
- .SBDATO1(hard11_SBDATo[1]),
- .SBDATO0(hard11_SBDATo[0]),
- .SBACKO(hard11_SBACKO),
- .I2CIRQ(i2c_pirq_o[1]),
- .I2CWKUP(i2c_pwkup_o[1]),
- .SCLO(I2C1_SCLo),
- .SCLOE(I2C1_SCLoe),
- .SDAO(I2C1_SDAo),
- .SDAOE(I2C1_SDAoe)) ;
- end
- else
- begin : genblk10
- assign hard11_SBDATo[7] = 1'b0 ;
- assign hard11_SBDATo[6] = 1'b0 ;
- assign hard11_SBDATo[5] = 1'b0 ;
- assign hard11_SBDATo[4] = 1'b0 ;
- assign hard11_SBDATo[3] = 1'b0 ;
- assign hard11_SBDATo[2] = 1'b0 ;
- assign hard11_SBDATo[1] = 1'b0 ;
- assign hard11_SBDATo[0] = 1'b0 ;
- assign hard11_SBACKO = 1'b0 ;
- assign i2c_pirq_o[1] = 1'b0 ;
- assign i2c_pwkup_o[1] = 1'b0 ;
- end
- if ((spi_left_enable == 1))
- begin : genblk11
- SPI_B #(.FREQUENCY_PIN_SBCLKI(FREQUENCY_PIN_SBCLKI),
- .SPI_CLK_DIVIDER(SPI_LEFT_CLK_PRESCALE),
- .BUS_ADDR74("0b0000")) u_SPI_B_INST_LT (.SBCLKI(sb_clk_i),
- .SBRWI(wb_we_ix),
- .SBSTBI(wb_stb_ix),
- .SBADRI7(wb_adr_ix[7]),
- .SBADRI6(wb_adr_ix[6]),
- .SBADRI5(wb_adr_ix[5]),
- .SBADRI4(wb_adr_ix[4]),
- .SBADRI3(wb_adr_ix[3]),
- .SBADRI2(wb_adr_ix[2]),
- .SBADRI1(wb_adr_ix[1]),
- .SBADRI0(wb_adr_ix[0]),
- .SBDATI7(wb_dat_ix[7]),
- .SBDATI6(wb_dat_ix[6]),
- .SBDATI5(wb_dat_ix[5]),
- .SBDATI4(wb_dat_ix[4]),
- .SBDATI3(wb_dat_ix[3]),
- .SBDATI2(wb_dat_ix[2]),
- .SBDATI1(wb_dat_ix[1]),
- .SBDATI0(wb_dat_ix[0]),
- .MI(SPI2_MI),
- .SI(SPI2_SI),
- .SCKI(SPI2_SCKi),
- .SCSNI(SPI2_SCSNi),
- .SBDATO7(hard00_SBDATo[7]),
- .SBDATO6(hard00_SBDATo[6]),
- .SBDATO5(hard00_SBDATo[5]),
- .SBDATO4(hard00_SBDATo[4]),
- .SBDATO3(hard00_SBDATo[3]),
- .SBDATO2(hard00_SBDATo[2]),
- .SBDATO1(hard00_SBDATo[1]),
- .SBDATO0(hard00_SBDATo[0]),
- .SBACKO(hard00_SBACKO),
- .SPIIRQ(spi_pirq_o[0]),
- .SPIWKUP(spi_pwkup_o[0]),
- .SO(SPI2_SO),
- .SOE(SPI2_SOoe),
- .MO(SPI2_MO),
- .MOE(SPI2_MOoe),
- .SCKO(SPI2_SCKo),
- .SCKOE(SPI2_SCKoe),
- .MCSNO3(SPI2_MCSNo[3]),
- .MCSNO2(SPI2_MCSNo[2]),
- .MCSNO1(SPI2_MCSNo[1]),
- .MCSNO0(SPI2_MCSNo[0]),
- .MCSNOE3(SPI2_MCSNoe[3]),
- .MCSNOE2(SPI2_MCSNoe[2]),
- .MCSNOE1(SPI2_MCSNoe[1]),
- .MCSNOE0(SPI2_MCSNoe[0])) ;
- end
- else
- begin : genblk11
- assign hard00_SBDATo[7] = 1'b0 ;
- assign hard00_SBDATo[6] = 1'b0 ;
- assign hard00_SBDATo[5] = 1'b0 ;
- assign hard00_SBDATo[4] = 1'b0 ;
- assign hard00_SBDATo[3] = 1'b0 ;
- assign hard00_SBDATo[2] = 1'b0 ;
- assign hard00_SBDATo[1] = 1'b0 ;
- assign hard00_SBDATo[0] = 1'b0 ;
- assign hard00_SBACKO = 1'b0 ;
- assign spi_pirq_o[0] = 1'b0 ;
- assign spi_pwkup_o[0] = 1'b0 ;
- end
- if ((spi_right_enable == 1))
- begin : genblk12
- SPI_B #(.FREQUENCY_PIN_SBCLKI(FREQUENCY_PIN_SBCLKI),
- .SPI_CLK_DIVIDER(SPI_RIGHT_CLK_PRESCALE),
- .BUS_ADDR74("0b0010")) u_SPI_B_INST_RT (.SBCLKI(sb_clk_i),
- .SBRWI(wb_we_ix),
- .SBSTBI(wb_stb_ix),
- .SBADRI7(wb_adr_ix[7]),
- .SBADRI6(wb_adr_ix[6]),
- .SBADRI5(wb_adr_ix[5]),
- .SBADRI4(wb_adr_ix[4]),
- .SBADRI3(wb_adr_ix[3]),
- .SBADRI2(wb_adr_ix[2]),
- .SBADRI1(wb_adr_ix[1]),
- .SBADRI0(wb_adr_ix[0]),
- .SBDATI7(wb_dat_ix[7]),
- .SBDATI6(wb_dat_ix[6]),
- .SBDATI5(wb_dat_ix[5]),
- .SBDATI4(wb_dat_ix[4]),
- .SBDATI3(wb_dat_ix[3]),
- .SBDATI2(wb_dat_ix[2]),
- .SBDATI1(wb_dat_ix[1]),
- .SBDATI0(wb_dat_ix[0]),
- .MI(SPI1_MI),
- .SI(SPI1_SI),
- .SCKI(SPI1_SCKi),
- .SCSNI(SPI1_SCSNi),
- .SBDATO7(hard10_SBDATo[7]),
- .SBDATO6(hard10_SBDATo[6]),
- .SBDATO5(hard10_SBDATo[5]),
- .SBDATO4(hard10_SBDATo[4]),
- .SBDATO3(hard10_SBDATo[3]),
- .SBDATO2(hard10_SBDATo[2]),
- .SBDATO1(hard10_SBDATo[1]),
- .SBDATO0(hard10_SBDATo[0]),
- .SBACKO(hard10_SBACKO),
- .SPIIRQ(spi_pirq_o[1]),
- .SPIWKUP(spi_pwkup_o[1]),
- .SO(SPI1_SO),
- .SOE(SPI1_SOoe),
- .MO(SPI1_MO),
- .MOE(SPI1_MOoe),
- .SCKO(SPI1_SCKo),
- .SCKOE(SPI1_SCKoe),
- .MCSNO3(SPI1_MCSNo[3]),
- .MCSNO2(SPI1_MCSNo[2]),
- .MCSNO1(SPI1_MCSNo[1]),
- .MCSNO0(SPI1_MCSNo[0]),
- .MCSNOE3(SPI1_MCSNoe[3]),
- .MCSNOE2(SPI1_MCSNoe[2]),
- .MCSNOE1(SPI1_MCSNoe[1]),
- .MCSNOE0(SPI1_MCSNoe[0])) ;
- end
- else
- begin : genblk12
- assign hard10_SBDATo[7] = 1'b0 ;
- assign hard10_SBDATo[6] = 1'b0 ;
- assign hard10_SBDATo[5] = 1'b0 ;
- assign hard10_SBDATo[4] = 1'b0 ;
- assign hard10_SBDATo[3] = 1'b0 ;
- assign hard10_SBDATo[2] = 1'b0 ;
- assign hard10_SBDATo[1] = 1'b0 ;
- assign hard10_SBDATo[0] = 1'b0 ;
- assign hard10_SBACKO = 1'b0 ;
- assign spi_pirq_o[1] = 1'b0 ;
- assign spi_pwkup_o[1] = 1'b0 ;
- end
- endgenerate
- endmodule
-
-
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