XPM_MEMORY_DPROM - 2023.2 English

Versal Architecture Premium Series Libraries Guide (UG1485)

Document ID
UG1485
Release Date
2023-10-18
Version
2023.2 English

Parameterized Macro: Dual Port ROM

  • MACRO_GROUP: XPM
  • MACRO_SUBGROUP: XPM_MEMORY

Introduction

This macro is used to instantiate True Dual Port ROM. Read operations from the memory can be performed from Port A and Port B simulataneously.

The following describes the basic read and write port usage of an XPM_MEMORY instance. It does not distinguish between ports A and B.

  • All synchronous signals are sensitive to the rising edge of clk[a|b], which is assumed to be a buffered and toggling clock signal behaving according to target device and memory primitive requirements.
  • A read operation is implicitly performed to address addr[a|b] combinatorially. The data output is registered each clk[a|b] cycle that en[a|b] is asserted.
  • Read data appears on the dout[a|b] port READ_LATENCY_[A|B] clk[a|b] cycles after the associated read operation.
  • All read operations are gated by the value of en[a|b] on the initiating clk[a|b] cycle, regardless of input or output latencies.
  • For each clk[a|b] cycle that rst[a|b] is asserted, the final output register is immediately but synchronously reset to READ_RESET_VALUE_[A|B], irrespective of READ_LATENCY_[A|B].
  • For each clk[a|b] cycle that regce[a|b] is asserted and rst[a|b] is de-asserted, the final output register captures and outputs the value from the previous pipeline register.
  • Undriven or unknown values provided on module inputs will produce undefined memory array and output port behavior.
  • When MEMORY INIT PARAM is used, the maximum supported memory size 4K bits.
  • For better timing performance in larger memories (>1 Mb), use CASCADE_HEIGHT of 1 with sufficient read latencies.
  • WRITE_MODE_A must be set to “read_first” in Dual Port ROM configurations. Violating this will result in a DRC error.
Note:
  • When the attribute “CLOCKING_MODE” is set to “common_clock”, all read/write operations to memory through port A and port B are performed on clka. If this attribute is set to “independent_clock”, then read/write operations through port A are performed based on clka, and read/write operations through port B are performed based on clkb.
  • set_false_path constraint is needed for the independent clock distributed RAM based memory if the design takes care of avoiding address collision (write address != read address at any given point of time).
  • For larger memories (≥2 MB), the recommended read latency must be > 8 because the default cascade height used by Vivado synthesis is 8.

Timing Diagrams



Note: The above waveforms do not distinguish between port A and port B. The behavior shown in the above waveforms is true for both port A and port B.

Port Descriptions

Port Direction Width Domain Sense Handling if Unused Function
addra Input ADDR_WIDTH_A clka NA Active Address for port A read operations.
addrb Input ADDR_WIDTH_B clkb NA Active Address for port B read operations.
clka Input 1 NA EDGE_RISING Active Clock signal for port A. Also clocks port B when parameter CLOCKING_MODE is "common_clock".
clkb Input 1 NA EDGE_RISING Active Clock signal for port B when parameter CLOCKING_MODE is "independent_clock". Unused when parameter CLOCKING_MODE is "common_clock".
dbiterra Output 1 clka LEVEL_HIGH DoNotCare Leave open.
dbiterrb Output 1 clkb LEVEL_HIGH DoNotCare Leave open.
douta Output READ_DATA_WIDTH_A clka NA Active Data output for port A read operations.
doutb Output READ_DATA_WIDTH_B clkb NA Active Data output for port B read operations.
ena Input 1 clka LEVEL_HIGH Active Memory enable signal for port A. Must be high on clock cycles when read operations are initiated. Pipelined internally.
enb Input 1 clkb LEVEL_HIGH Active Memory enable signal for port B. Must be high on clock cycles when read operations are initiated. Pipelined internally.
injectdbiterra Input 1 clka LEVEL_HIGH 0 Do not change from the provided value.
injectdbiterrb Input 1 clkb LEVEL_HIGH 0 Do not change from the provided value.
injectsbiterra Input 1 clka LEVEL_HIGH 0 Do not change from the provided value.
injectsbiterrb Input 1 clkb LEVEL_HIGH 0 Do not change from the provided value.
regcea Input 1 clka LEVEL_HIGH 1 Do not change from the provided value.
regceb Input 1 clkb LEVEL_HIGH 1 Do not change from the provided value.
rsta Input 1 clka LEVEL_HIGH Active Reset signal for the final port A output register stage. Synchronously resets output port douta to the value specified by parameter READ_RESET_VALUE_A.
rstb Input 1 clkb LEVEL_HIGH Active Reset signal for the final port B output register stage. Synchronously resets output port doutb to the value specified by parameter READ_RESET_VALUE_B.
sbiterra Output 1 clka LEVEL_HIGH DoNotCare Leave open.
sbiterrb Output 1 clkb LEVEL_HIGH DoNotCare Leave open.
sleep Input 1 NA LEVEL_HIGH 0 sleep signal to enable the dynamic power saving feature.

Design Entry Method

Instantiation Yes
Inference No
IP and IP Integrator Catalog No

Available Attributes

Attribute Type Allowed Values Default Description
ADDR_WIDTH_A DECIMAL 1 to 20 6 Specify the width of the port A address port addra, in bits. Must be large enough to access the entire memory from port A, i.e. >= $clog2(MEMORY_SIZE/READ_DATA_WIDTH_A).
ADDR_WIDTH_B DECIMAL 1 to 20 6 Specify the width of the port B address port addrb, in bits. Must be large enough to access the entire memory from port B, i.e. >= $clog2(MEMORY_SIZE/READ_DATA_WIDTH_B).
AUTO_SLEEP_TIME DECIMAL 0 to 15 0 Must be set to 0 0 - Disable auto-sleep feature
CASCADE_HEIGHT DECIMAL 0 to 64 0

0- No Cascade Height, Allow Vivado Synthesis to choose.

1 or more - Vivado Synthesis sets the specified value as Cascade Height.

CLOCKING_MODE STRING "common_clock", "independent_clock" "common_clock" Designate whether port A and port B are clocked with a common clock or with independent clocks- "common_clock"- Common clocking; clock both port A and port B with clka "independent_clock"- Independent clocking; clock port A with clka and port B with clkb
ECC_BIT_RANGE STRING String "7:0"

This parameter is only used by synthesis. Specify the ECC bit range on the provided data.

"7:0" - it specifies lower 8 bits are ECC bits.

ECC_MODE STRING "no_ecc", "both_encode_and_decode", "decode_only", "encode_only" "no_ecc"
  • "no_ecc" - Disables ECC
  • "encode_only" - Enables ECC Encoder only
  • "decode_only" - Enables ECC Decoder only
  • "both_encode_and_decode" - Enables both ECC Encoder and Decoder
ECC_TYPE STRING "none", "ECCHSIAO32-7", "ECCHSIAO64-8", "ECCHSIAO128-9", "ECCH32-7", "ECCH64-8" "none"

This parameter is only used by synthesis. Specify the algorithm used to generate the ecc bits outside the XPM Memory.

XPM Memory does not performs ECC operation with this parameter.

  • "none" - No ECC
  • "ECCH32-7" - 32 bit ECC Hamming algorithm is used
  • "ECCH64-8" - 64 bit ECC Hamming algorithm is used
  • "ECCHSIAO32-7" - 32 bit ECC HSIAO algorithm is used
  • "ECCHSIAO64-8" - 64 bit ECC HSIAO algorithm is used
  • "ECCHSIAO128-9" - 128 bit ECC HSIAO algorithm is used
IGNORE_INIT_SYNTH DECIMAL 0 to 1 0

0 - Initiazation file if specified will applies for both simulation and synthesis

1 - Initiazation file if specified will applies for only simulation and will ignore for synthesis

MEMORY_INIT_FILE STRING String "none" Specify "none" (including quotes) for no memory initialization, or specify the name of a memory initialization file- Enter only the name of the file with .mem extension, including quotes but without path (e.g. "my_file.mem"). File format must be ASCII and consist of only hexadecimal values organized into the specified depth by narrowest data width generic value of the memory. Initialization of memory happens through the file name specified only when parameter MEMORY_INIT_PARAM value is equal to "". | When using XPM_MEMORY in a project, add the specified file to the Vivado project as a design source.
MEMORY_INIT_PARAM STRING String "0"

Specify "" or "0" (including quotes) for no memory initialization through parameter, or specify the string containing the hex characters. Enter only hex characters with each location separated by delimiter (,).

Parameter format must be ASCII and consist of only hexadecimal values organized into the specified depth by narrowest data width generic value of the memory.

For example, if the narrowest data width is 8, and the depth of memory is 8 locations, then the parameter value should be passed as shown below.

parameter MEMORY_INIT_PARAM = "AB,CD,EF,1,2,34,56,78"

Where "AB" is the 0th location and "78" is the 7th location.

MEMORY_OPTIMIZATION STRING "true", "false" "true" Specify "true" to enable the optimization of unused memory or bits in the memory structure. Specify "false" to disable the optimization of unused memory or bits in the memory structure
MEMORY_PRIMITIVE STRING "auto", "block", "distributed", "ultra" "auto" Designate the memory primitive (resource type) to use- "auto"- Allow Vivado Synthesis to choose "distributed"- Distributed memory "block"- Block memory
MEMORY_SIZE DECIMAL 2 to 150994944 2048 Specify the total memory array size, in bits. For example, enter 65536 for a 2kx32 ROM.
MESSAGE_CONTROL DECIMAL 0 to 1 0 Specify 1 to enable the dynamic message reporting such as collision warnings, and 0 to disable the message reporting
RAM_DECOMP STRING "auto", "area", "power" "auto"

Specifies the decomposition of the memory.

"auto" - Synthesis selects default.

"power" - Synthesis selects a strategy to reduce switching activity of RAMs and maps using widest configuration possible.

"area" - Synthesis selects a strategy to reduce RAM resource count.

READ_DATA_WIDTH_A DECIMAL 1 to 4608 32 Specify the width of the port A read data output port douta, in bits.
READ_DATA_WIDTH_B DECIMAL 1 to 4608 32 Specify the width of the port B read data output port doutb, in bits.
READ_LATENCY_A DECIMAL 0 to 100 2 Specify the number of register stages in the port A read data pipeline. Read data output to port douta takes this number of clka cycles. To target block memory, a value of 1 or larger is required- 1 causes use of memory latch only; 2 causes use of output register. To target distributed memory, a value of 0 or larger is required- 0 indicates combinatorial output. Values larger than 2 synthesize additional flip-flops that are not retimed into memory primitives.
READ_LATENCY_B DECIMAL 0 to 100 2 Specify the number of register stages in the port B read data pipeline. Read data output to port doutb takes this number of clkb cycles (clka when CLOCKING_MODE is "common_clock"). To target block memory, a value of 1 or larger is required- 1 causes use of memory latch only; 2 causes use of output register. To target distributed memory, a value of 0 or larger is required- 0 indicates combinatorial output. Values larger than 2 synthesize additional flip-flops that are not retimed into memory primitives.
READ_RESET_VALUE_A STRING String "0" Specify the reset value of the port A final output register stage in response to rsta input port is assertion. For example, to reset the value of port douta to all 0s when READ_DATA_WIDTH_A is 32, specify 32HHHHh0.
READ_RESET_VALUE_B STRING String "0" Specify the reset value of the port B final output register stage in response to rstb input port is assertion.
RST_MODE_A STRING "SYNC", "ASYNC" "SYNC"

Describes the behaviour of the reset

  • "SYNC" - when reset is applied, synchronously resets output port douta to the value specified by parameter READ_RESET_VALUE_A
  • "ASYNC" - when reset is applied, asynchronously resets output port douta to zero
RST_MODE_B STRING "SYNC", "ASYNC" "SYNC"

Describes the behaviour of the reset

  • "SYNC" - when reset is applied, synchronously resets output port doutb to the value specified by parameter READ_RESET_VALUE_B
  • "ASYNC" - when reset is applied, asynchronously resets output port doutb to zero
SIM_ASSERT_CHK DECIMAL 0 to 1 0

0- Disable simulation message reporting. Messages related to potential misuse will not be reported.

1- Enable simulation message reporting. Messages related to potential misuse will be reported.

USE_MEM_INIT DECIMAL 0 to 1 1

Specify 1 to enable the generation of below message and 0 to disable generation of the following message completely.

"INFO - MEMORY_INIT_FILE and MEMORY_INIT_PARAM together specifies no memory initialization. Initial memory contents will be all 0s." NOTE: This message gets generated only when there is no Memory Initialization specified either through file or Parameter.
USE_MEM_INIT_MMI DECIMAL 0 to 1 0

Specify 1 to expose this memory information to be written out in the MMI file.

WAKEUP_TIME STRING "disable_sleep", "use_sleep_pin" "disable_sleep" Specify "disable_sleep" to disable dynamic power saving option, and specify "use_sleep_pin" to enable the dynamic power saving option

VHDL Instantiation Template

Unless they already exist, copy the following two statements and paste them before the entity declaration.
Library xpm;
use xpm.vcomponents.all;

-- xpm_memory_dprom: Dual Port ROM
-- Xilinx Parameterized Macro, version 2023.2

xpm_memory_dprom_inst : xpm_memory_dprom
generic map (
   ADDR_WIDTH_A => 6,               -- DECIMAL
   ADDR_WIDTH_B => 6,               -- DECIMAL
   AUTO_SLEEP_TIME => 0,            -- DECIMAL
   CASCADE_HEIGHT => 0,             -- DECIMAL
   CLOCKING_MODE => "common_clock", -- String
   ECC_BIT_RANGE => "7:0",          -- String
   ECC_MODE => "no_ecc",            -- String
   ECC_TYPE => "none",              -- String
   IGNORE_INIT_SYNTH => 0,          -- DECIMAL
   MEMORY_INIT_FILE => "none",      -- String
   MEMORY_INIT_PARAM => "0",        -- String
   MEMORY_OPTIMIZATION => "true",   -- String
   MEMORY_PRIMITIVE => "auto",      -- String
   MEMORY_SIZE => 2048,             -- DECIMAL
   MESSAGE_CONTROL => 0,            -- DECIMAL
   RAM_DECOMP => "auto",            -- String
   READ_DATA_WIDTH_A => 32,         -- DECIMAL
   READ_DATA_WIDTH_B => 32,         -- DECIMAL
   READ_LATENCY_A => 2,             -- DECIMAL
   READ_LATENCY_B => 2,             -- DECIMAL
   READ_RESET_VALUE_A => "0",       -- String
   READ_RESET_VALUE_B => "0",       -- String
   RST_MODE_A => "SYNC",            -- String
   RST_MODE_B => "SYNC",            -- String
   SIM_ASSERT_CHK => 0,             -- DECIMAL; 0=disable simulation messages, 1=enable simulation messages
   USE_MEM_INIT => 1,               -- DECIMAL
   USE_MEM_INIT_MMI => 0,           -- DECIMAL
   WAKEUP_TIME => "disable_sleep"   -- String
)
port map (
   dbiterra => dbiterra,             -- 1-bit output: Leave open.
   dbiterrb => dbiterrb,             -- 1-bit output: Leave open.
   douta => douta,                   -- READ_DATA_WIDTH_A-bit output: Data output for port A read operations.
   doutb => doutb,                   -- READ_DATA_WIDTH_B-bit output: Data output for port B read operations.
   sbiterra => sbiterra,             -- 1-bit output: Leave open.
   sbiterrb => sbiterrb,             -- 1-bit output: Leave open.
   addra => addra,                   -- ADDR_WIDTH_A-bit input: Address for port A read operations.
   addrb => addrb,                   -- ADDR_WIDTH_B-bit input: Address for port B read operations.
   clka => clka,                     -- 1-bit input: Clock signal for port A. Also clocks port B when
                                     -- parameter CLOCKING_MODE is "common_clock".

   clkb => clkb,                     -- 1-bit input: Clock signal for port B when parameter CLOCKING_MODE is
                                     -- "independent_clock". Unused when parameter CLOCKING_MODE is
                                     -- "common_clock".

   ena => ena,                       -- 1-bit input: Memory enable signal for port A. Must be high on clock
                                     -- cycles when read operations are initiated. Pipelined internally.

   enb => enb,                       -- 1-bit input: Memory enable signal for port B. Must be high on clock
                                     -- cycles when read operations are initiated. Pipelined internally.

   injectdbiterra => injectdbiterra, -- 1-bit input: Do not change from the provided value.
   injectdbiterrb => injectdbiterrb, -- 1-bit input: Do not change from the provided value.
   injectsbiterra => injectsbiterra, -- 1-bit input: Do not change from the provided value.
   injectsbiterrb => injectsbiterrb, -- 1-bit input: Do not change from the provided value.
   regcea => regcea,                 -- 1-bit input: Do not change from the provided value.
   regceb => regceb,                 -- 1-bit input: Do not change from the provided value.
   rsta => rsta,                     -- 1-bit input: Reset signal for the final port A output register
                                     -- stage. Synchronously resets output port douta to the value specified
                                     -- by parameter READ_RESET_VALUE_A.

   rstb => rstb,                     -- 1-bit input: Reset signal for the final port B output register
                                     -- stage. Synchronously resets output port doutb to the value specified
                                     -- by parameter READ_RESET_VALUE_B.

   sleep => sleep                    -- 1-bit input: sleep signal to enable the dynamic power saving feature.
);

-- End of xpm_memory_dprom_inst instantiation

Verilog Instantiation Template


// xpm_memory_dprom: Dual Port ROM
// Xilinx Parameterized Macro, version 2023.2

xpm_memory_dprom #(
   .ADDR_WIDTH_A(6),               // DECIMAL
   .ADDR_WIDTH_B(6),               // DECIMAL
   .AUTO_SLEEP_TIME(0),            // DECIMAL
   .CASCADE_HEIGHT(0),             // DECIMAL
   .CLOCKING_MODE("common_clock"), // String
   .ECC_BIT_RANGE("7:0"),          // String
   .ECC_MODE("no_ecc"),            // String
   .ECC_TYPE("none"),              // String
   .IGNORE_INIT_SYNTH(0),          // DECIMAL
   .MEMORY_INIT_FILE("none"),      // String
   .MEMORY_INIT_PARAM("0"),        // String
   .MEMORY_OPTIMIZATION("true"),   // String
   .MEMORY_PRIMITIVE("auto"),      // String
   .MEMORY_SIZE(2048),             // DECIMAL
   .MESSAGE_CONTROL(0),            // DECIMAL
   .RAM_DECOMP("auto"),            // String
   .READ_DATA_WIDTH_A(32),         // DECIMAL
   .READ_DATA_WIDTH_B(32),         // DECIMAL
   .READ_LATENCY_A(2),             // DECIMAL
   .READ_LATENCY_B(2),             // DECIMAL
   .READ_RESET_VALUE_A("0"),       // String
   .READ_RESET_VALUE_B("0"),       // String
   .RST_MODE_A("SYNC"),            // String
   .RST_MODE_B("SYNC"),            // String
   .SIM_ASSERT_CHK(0),             // DECIMAL; 0=disable simulation messages, 1=enable simulation messages
   .USE_MEM_INIT(1),               // DECIMAL
   .USE_MEM_INIT_MMI(0),           // DECIMAL
   .WAKEUP_TIME("disable_sleep")   // String
)
xpm_memory_dprom_inst (
   .dbiterra(dbiterra),             // 1-bit output: Leave open.
   .dbiterrb(dbiterrb),             // 1-bit output: Leave open.
   .douta(douta),                   // READ_DATA_WIDTH_A-bit output: Data output for port A read operations.
   .doutb(doutb),                   // READ_DATA_WIDTH_B-bit output: Data output for port B read operations.
   .sbiterra(sbiterra),             // 1-bit output: Leave open.
   .sbiterrb(sbiterrb),             // 1-bit output: Leave open.
   .addra(addra),                   // ADDR_WIDTH_A-bit input: Address for port A read operations.
   .addrb(addrb),                   // ADDR_WIDTH_B-bit input: Address for port B read operations.
   .clka(clka),                     // 1-bit input: Clock signal for port A. Also clocks port B when
                                    // parameter CLOCKING_MODE is "common_clock".

   .clkb(clkb),                     // 1-bit input: Clock signal for port B when parameter CLOCKING_MODE is
                                    // "independent_clock". Unused when parameter CLOCKING_MODE is
                                    // "common_clock".

   .ena(ena),                       // 1-bit input: Memory enable signal for port A. Must be high on clock
                                    // cycles when read operations are initiated. Pipelined internally.

   .enb(enb),                       // 1-bit input: Memory enable signal for port B. Must be high on clock
                                    // cycles when read operations are initiated. Pipelined internally.

   .injectdbiterra(injectdbiterra), // 1-bit input: Do not change from the provided value.
   .injectdbiterrb(injectdbiterrb), // 1-bit input: Do not change from the provided value.
   .injectsbiterra(injectsbiterra), // 1-bit input: Do not change from the provided value.
   .injectsbiterrb(injectsbiterrb), // 1-bit input: Do not change from the provided value.
   .regcea(regcea),                 // 1-bit input: Do not change from the provided value.
   .regceb(regceb),                 // 1-bit input: Do not change from the provided value.
   .rsta(rsta),                     // 1-bit input: Reset signal for the final port A output register stage.
                                    // Synchronously resets output port douta to the value specified by
                                    // parameter READ_RESET_VALUE_A.

   .rstb(rstb),                     // 1-bit input: Reset signal for the final port B output register stage.
                                    // Synchronously resets output port doutb to the value specified by
                                    // parameter READ_RESET_VALUE_B.

   .sleep(sleep)                    // 1-bit input: sleep signal to enable the dynamic power saving feature.
);

// End of xpm_memory_dprom_inst instantiation