XPM_FIFO_ASYNC - 2022.1 English

Versal Architecture Premium Series Libraries Guide (UG1485)

Document ID
UG1485
Release Date
2022-04-20
Version
2022.1 English

Parameterized Macro: Asynchronous FIFO

  • MACRO_GROUP: XPM
  • MACRO_SUBGROUP: XPM_FIFO

Introduction

This macro is used to instantiate an asynchronous FIFO.

The following describes the basic write and read operation of an XPM_FIFO instance. It does not distinguish between FIFO types, clock domain or read mode.
  • After a user issues a reset, the user should wait until the busy signals go low before issuing another reset.
  • All synchronous signals are sensitive to the rising edge of wr_clk/rd_clk, which is assumed to be a buffered and toggling clock signal behaving according to target device and FIFO/memory primitive requirements.
  • A write operation is performed when the FIFO is not full and wr_en is asserted on each wr_clk cycle.
  • A read operation is performed when the FIFO is not empty and rd_en is asserted on each rd_clk cycle.
  • The number of clock cycles required for XPM FIFO to react to dout, full, and empty changes depends on the CLOCK_DOMAIN, READ_MODE, and FIFO_READ_LATENCY settings.
    • It can take more than one rd_clk cycle to deassert empty due to write operation (wr_en = 1).
    • It can take more than one rd_clk cycle to present the read data on dout port upon assertion of rd_en.
    • It may take more than one wr_clk cycle to deassert full due to read operation (rd_en = 1).
  • All write operations are gated by the value of wr_en and full on the initiating wr_clk cycle.
  • All read operations are gated by the value of rd_en and empty on the initiating rd_clk cycle.
  • Undriven or unknown values provided on module inputs will produce undefined output port behavior.
  • wr_en/rd_en should not be toggled when reset (rst) or wr_rst_busy or rd_rst_busy is asserted.
  • Assertion/deassertion of prog_full happens only when full is deasserted.
  • Assertion/deassertion of prog_empty happens only when empty is deasserted.
Note: In an asynchronous FIFO (that is, two independent clocks), the RELATED_CLOCKS attribute should be set to TRUE only if both the wr_clk and rd_clk are generated from the same source.

Timing Diagrams

Figure 1. Reset Behavior

Figure 2. Standard Write Operation. FIFO_WRITE_DEPTH=16, PROG_FULL_THRESH=6

Figure 3. Standard Read Operation. FIFO_WRITE_DEPTH=16, PROG_EMPTY_THRESH=3, FIFO_READ_LATENCY=1

Figure 4. Standard Read Operation. FIFO_WRITE_DEPTH=16, PROG_EMPTY_THRESH=3, FIFO_READ_LATENCY=3

Figure 5. Write Operation. READ_MODE=FWFT, FIFO_WRITE_DEPTH=16, PROG_FULL_THRESH=7

Figure 6. Read Operation. READ_MODE=FWFT, FIFO_WRITE_DEPTH=16, PROG_EMPTY_THRESH=5

Figure 7. Standard Write Operation with Empty Deassertion. FIFO_WRITE_DEPTH=16

Figure 8. Standard Read Operation with Full Deassertion. FIFO_WRITE_DEPTH=16, FIFO_READ_LATENCY=1

Latency

This section defines the latency in which different output signals of the FIFO are updated in response to read or write operations for standard read mode and FWFT read mode implementations.

The following table defines the write port flags update latency due to a write operation.

Table 1. Standard Read Mode — Write Port Flags Due to Write Operation
Signal Latency (wr_clk)
full 0
almost_full 0
prog_full 2
wr_ack 1
overflow 0
wr_data_count 2

The following table defines the read port flags update latency due to a read operation.

Table 2. Standard Read Mode — Read Port Flags Due to Read Operation
Signal Latency (rd_clk)
empty 0
almost_empty 0
prog_empty 1
data_valid FIFO_READ_LATENCY
underflow 0
rd_data_count 2

The following table defines the write port flags update latency due to a read operation. N is the number of synchronization stages.

Table 3. Standard Read Mode — Write Port Flags Due to Read Operations
Signal Latency
full 1 rd_clk + (N+2) wr_clk
almost_full 1 rd_clk + (N+3) wr_clk
prog_full 1 rd_clk + (N+2) wr_clk
wr_ack N/A
overflow N/A
wr_data_count 1 rd_clk + (N+2) wr_clk

The following table defines the read port flags update latency due to a write operation. N is the number of synchronization stages. In this example, N is 2.

Table 4. Standard Read Mode — Read Port Flags Due to Write Operation
Signal Latency
empty 1 wr_clk + (N+2) rd_clk
almost_empty 1 wr_clk + (N+3) rd_clk
prog_empty 1 wr_clk + (N+3) rd_clk
data_valid N/A
underflow N/A
rd_data_count 1 wr_clk + (N+2) rd_clk

The following table defines the write port flags update latency due to a write operation.

Table 5. FWFT Read Mode — Write Port Flags Due to Write Operation
Signal Latency
full 2
almost_full 1
prog_full 0
wr_ack 1
overflow 2
wr_data_count 2

The following table defines the read port flags update latency due to a read operation.

Table 6. FWFT Read Mode — Read Port Flags Due to Read Operation
Signal Latency
empty 2
almost_empty 2
prog_empty 3
data_valid 0
underflow 2
rd_data_count 2

The following table defines the write port flags update latency due to a read operation. N is the number of synchronization stages.

Table 7. FWFT Read Mode — Write Port Flags Due to Read Operation
Signal Latency
full 1 rd_clk + (N+3) wr_clk
almost_full 1 rd_clk + (N+4) wr_clk
prog_full 1 rd_clk + (N+5) wr_clk
wr_ack N/A
overflow N/A
wr_data_count 1 rd_clk + (N+3) wr_clk

The following table defines the read port flags update latency due to a write operation. N is the number of synchronization stages. In this example, N is 2.

Table 8. FWFT Read Mode — Read Port Flags Due to Write Operation
Signal Latency
empty 1 wr_clk + (N+4) rd_clk
almost_empty 1 wr_clk + (N+4) rd_clk
prog_empty 1 wr_clk + (N+3) rd_clk
data_valid 1 wr_clk + (N+4) rd_clk
underflow N/A
rd_data_count 1 wr_clk + (N+4) rd_clk

Port Descriptions

Port Direction Width Domain Sense Handling if Unused Function
almost_empty Output 1 rd_clk LEVEL_HIGH DoNotCare Almost Empty : When asserted, this signal indicates that only one more read can be performed before the FIFO goes to empty.
almost_full Output 1 wr_clk LEVEL_HIGH DoNotCare Almost Full: When asserted, this signal indicates that only one more write can be performed before the FIFO is full.
data_valid Output 1 rd_clk LEVEL_HIGH DoNotCare Read Data Valid: When asserted, this signal indicates that valid data is available on the output bus (dout).
dbiterr Output 1 rd_clk LEVEL_HIGH DoNotCare Double Bit Error: Indicates that the ECC decoder detected a double-bit error and data in the FIFO core is corrupted.
din Input WRITE_DATA_WIDTH wr_clk NA Active Write Data: The input data bus used when writing the FIFO.
dout Output READ_DATA_WIDTH rd_clk NA Active Read Data: The output data bus is driven when reading the FIFO.
empty Output 1 rd_clk LEVEL_HIGH Active

Empty Flag: When asserted, this signal indicates that the FIFO is empty.

Read requests are ignored when the FIFO is empty, initiating a read while empty is not destructive to the FIFO.

full Output 1 wr_clk LEVEL_HIGH Active

Full Flag: When asserted, this signal indicates that the FIFO is full.

Write requests are ignored when the FIFO is full, initiating a write when the FIFO is full is not destructive to the contents of the FIFO.
injectdbiterr Input 1 wr_clk LEVEL_HIGH 0 Double Bit Error Injection: Injects a double bit error if the ECC feature is used on block RAMs or UltraRAM macros.
injectsbiterr Input 1 wr_clk LEVEL_HIGH 0 Single Bit Error Injection: Injects a single bit error if the ECC feature is used on block RAMs or UltraRAM macros.
overflow Output 1 wr_clk LEVEL_HIGH DoNotCare Overflow: This signal indicates that a write request (wren) during the prior clock cycle was rejected, because the FIFO is full. Overflowing the FIFO is not destructive to the contents of the FIFO.
prog_empty Output 1 rd_clk LEVEL_HIGH DoNotCare

Programmable Empty: This signal is asserted when the number of words in the FIFO is less than or equal to the programmable empty threshold value.

It is de-asserted when the number of words in the FIFO exceeds the programmable empty threshold value.

prog_full Output 1 wr_clk LEVEL_HIGH DoNotCare

Programmable Full: This signal is asserted when the number of words in the FIFO is greater than or equal to the programmable full threshold value.

It is de-asserted when the number of words in the FIFO is less than the programmable full threshold value.

rd_clk Input 1 NA EDGE_RISING Active Read clock: Used for read operation. rd_clk must be a free running clock.
rd_data_count Output RD_DATA_COUNT_WIDTH rd_clk NA DoNotCare Read Data Count: This bus indicates the number of words read from the FIFO.
rd_en Input 1 rd_clk LEVEL_HIGH Active Read Enable: If the FIFO is not empty, asserting this signal causes data (on dout) to be read from the FIFO.
  • Must be held active-low when rd_rst_busy is active high.
rd_rst_busy Output 1 rd_clk LEVEL_HIGH Active Read Reset Busy: Active-High indicator that the FIFO read domain is currently in a reset state.
rst Input 1 wr_clk LEVEL_HIGH Active Reset: Must be synchronous to wr_clk. The clock(s) can be unstable at the time of applying reset, but reset must be released only after the clock(s) is/are stable.
sbiterr Output 1 rd_clk LEVEL_HIGH DoNotCare Single Bit Error: Indicates that the ECC decoder detected and fixed a single-bit error.
sleep Input 1 NA LEVEL_HIGH 0 Dynamic power saving: If sleep is High, the memory/fifo block is in power saving mode.
underflow Output 1 rd_clk LEVEL_HIGH DoNotCare Underflow: Indicates that the read request (rd_en) during the previous clock cycle was rejected because the FIFO is empty. Under flowing the FIFO is not destructive to the FIFO.
wr_ack Output 1 wr_clk LEVEL_HIGH DoNotCare Write Acknowledge: This signal indicates that a write request (wr_en) during the prior clock cycle is succeeded.
wr_clk Input 1 NA EDGE_RISING Active Write clock: Used for write operation. wr_clk must be a free running clock.
wr_data_count Output WR_DATA_COUNT_WIDTH wr_clk NA DoNotCare Write Data Count: This bus indicates the number of words written into the FIFO.
wr_en Input 1 wr_clk LEVEL_HIGH Active Write Enable: If the FIFO is not full, asserting this signal causes data (on din) to be written to the FIFO.
  • Must be held active-low when rst or wr_rst_busy is active high.
wr_rst_busy Output 1 wr_clk LEVEL_HIGH Active Write Reset Busy: Active-High indicator that the FIFO write domain is currently in a reset state.

Design Entry Method

Instantiation Yes
Inference No
IP and IP Integrator Catalog No

Available Attributes

Attribute Type Allowed Values Default Description
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.

CDC_SYNC_STAGES DECIMAL 2 to 8 2 Specifies the number of synchronization stages on the CDC path
  • Must be < 5 if FIFO_WRITE_DEPTH = 16
DOUT_RESET_VALUE STRING String "0" Reset value of read data path.
ECC_MODE STRING "no_ecc", "en_ecc" "no_ecc"
  • "no_ecc" - Disables ECC
  • "en_ecc" - Enables both ECC Encoder and Decoder
NOTE: ECC_MODE should be "no_ecc" if FIFO_MEMORY_TYPE is set to "auto". Violating this may result incorrect behavior.
FIFO_MEMORY_TYPE STRING "auto", "block", "distributed" "auto"

Designate the fifo memory primitive (resource type) to use.

  • "auto"- Allow Vivado Synthesis to choose
  • "block"- Block RAM FIFO
  • "distributed"- Distributed RAM FIFO
NOTE: There may be a behavior mismatch if Block RAM or Ultra RAM specific features, like ECC or Asymmetry, are selected with FIFO_MEMORY_TYPE set to "auto".
FIFO_READ_LATENCY DECIMAL 0 to 10 1 Number of output register stages in the read data path.
  • If READ_MODE = "fwft", then the only applicable value is 0.
FIFO_WRITE_DEPTH DECIMAL 16 to 4194304 2048

Defines the FIFO Write Depth, must be power of two.

  • In standard READ_MODE, the effective depth = FIFO_WRITE_DEPTH-1
  • In First-Word-Fall-Through READ_MODE, the effective depth = FIFO_WRITE_DEPTH+1
NOTE: The maximum FIFO size (width x depth) is limited to 150-Megabits.
FULL_RESET_VALUE DECIMAL 0 to 1 0 Sets full, almost_full and prog_full to FULL_RESET_VALUE during reset
PROG_EMPTY_THRESH DECIMAL 3 to 4194301 10

Specifies the minimum number of read words in the FIFO at or below which prog_empty is asserted.

  • Min_Value = 3 + (READ_MODE_VAL*2)
  • Max_Value = (FIFO_WRITE_DEPTH-3) - (READ_MODE_VAL*2)

If READ_MODE = "std", then READ_MODE_VAL = 0; Otherwise READ_MODE_VAL = 1.

NOTE: The default threshold value is dependent on default FIFO_WRITE_DEPTH value. If FIFO_WRITE_DEPTH value is changed, ensure the threshold value is within the valid range though the programmable flags are not used.
PROG_FULL_THRESH DECIMAL 5 to 4194301 10

Specifies the maximum number of write words in the FIFO at or above which prog_full is asserted.

  • Min_Value = 3 + (READ_MODE_VAL*2*(FIFO_WRITE_DEPTH/FIFO_READ_DEPTH))+CDC_SYNC_STAGES
  • Max_Value = (FIFO_WRITE_DEPTH-3) - (READ_MODE_VAL*2*(FIFO_WRITE_DEPTH/FIFO_READ_DEPTH))

If READ_MODE = "std", then READ_MODE_VAL = 0; Otherwise READ_MODE_VAL = 1.

NOTE: The default threshold value is dependent on default FIFO_WRITE_DEPTH value. If FIFO_WRITE_DEPTH value is changed, ensure the threshold value is within the valid range though the programmable flags are not used.
RD_DATA_COUNT_WIDTH DECIMAL 1 to 23 1 Specifies the width of rd_data_count. To reflect the correct value, the width should be log2(FIFO_READ_DEPTH)+1.
  • FIFO_READ_DEPTH = FIFO_WRITE_DEPTH*WRITE_DATA_WIDTH/READ_DATA_WIDTH
READ_DATA_WIDTH DECIMAL 1 to 4096 32 Defines the width of the read data port, dout
  • Write and read width aspect ratio must be 1:1, 1:2, 1:4, 1:8, 8:1, 4:1 and 2:1
  • For example, if WRITE_DATA_WIDTH is 32, then the READ_DATA_WIDTH must be 32, 64,128, 256, 16, 8, 4.
NOTE:
  • READ_DATA_WIDTH should be equal to WRITE_DATA_WIDTH if FIFO_MEMORY_TYPE is set to "auto". Violating this may result incorrect behavior.
  • The maximum FIFO size (width x depth) is limited to 150-Megabits.
READ_MODE STRING "std", "fwft" "std"
  • "std"- standard read mode
  • "fwft"- First-Word-Fall-Through read mode
RELATED_CLOCKS DECIMAL 0 to 1 0 Specifies if the wr_clk and rd_clk are related having the same source but different clock ratios
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_ADV_FEATURES STRING String "0707"

Enables data_valid, almost_empty, rd_data_count, prog_empty, underflow, wr_ack, almost_full, wr_data_count, prog_full, overflow features.

  • Setting USE_ADV_FEATURES[0] to 1 enables overflow flag; Default value of this bit is 1
  • Setting USE_ADV_FEATURES[1] to 1 enables prog_full flag; Default value of this bit is 1
  • Setting USE_ADV_FEATURES[2] to 1 enables wr_data_count; Default value of this bit is 1
  • Setting USE_ADV_FEATURES[3] to 1 enables almost_full flag; Default value of this bit is 0
  • Setting USE_ADV_FEATURES[4] to 1 enables wr_ack flag; Default value of this bit is 0
  • Setting USE_ADV_FEATURES[8] to 1 enables underflow flag; Default value of this bit is 1
  • Setting USE_ADV_FEATURES[9] to 1 enables prog_empty flag; Default value of this bit is 1
  • Setting USE_ADV_FEATURES[10] to 1 enables rd_data_count; Default value of this bit is 1
  • Setting USE_ADV_FEATURES[11] to 1 enables almost_empty flag; Default value of this bit is 0
  • Setting USE_ADV_FEATURES[12] to 1 enables data_valid flag; Default value of this bit is 0
WAKEUP_TIME DECIMAL 0 to 2 0
  • 0 - Disable sleep
  • 2 - Use Sleep Pin
NOTE: WAKEUP_TIME should be 0 if FIFO_MEMORY_TYPE is set to "auto". Violating this may result incorrect behavior.
WR_DATA_COUNT_WIDTH DECIMAL 1 to 23 1 Specifies the width of wr_data_count. To reflect the correct value, the width should be log2(FIFO_WRITE_DEPTH)+1.
WRITE_DATA_WIDTH DECIMAL 1 to 4096 32 Defines the width of the write data port, din
  • Write and read width aspect ratio must be 1:1, 1:2, 1:4, 1:8, 8:1, 4:1 and 2:1
  • For example, if WRITE_DATA_WIDTH is 32, then the READ_DATA_WIDTH must be 32, 64,128, 256, 16, 8, 4.
NOTE:
  • WRITE_DATA_WIDTH should be equal to READ_DATA_WIDTH if FIFO_MEMORY_TYPE is set to "auto". Violating this may result incorrect behavior.
  • The maximum FIFO size (width x depth) is limited to 150-Megabits.

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_fifo_async: Asynchronous FIFO
-- Xilinx Parameterized Macro, version 2022.1

xpm_fifo_async_inst : xpm_fifo_async
generic map (
   CASCADE_HEIGHT => 0,        -- DECIMAL
   CDC_SYNC_STAGES => 2,       -- DECIMAL
   DOUT_RESET_VALUE => "0",    -- String
   ECC_MODE => "no_ecc",       -- String
   FIFO_MEMORY_TYPE => "auto", -- String
   FIFO_READ_LATENCY => 1,     -- DECIMAL
   FIFO_WRITE_DEPTH => 2048,   -- DECIMAL
   FULL_RESET_VALUE => 0,      -- DECIMAL
   PROG_EMPTY_THRESH => 10,    -- DECIMAL
   PROG_FULL_THRESH => 10,     -- DECIMAL
   RD_DATA_COUNT_WIDTH => 1,   -- DECIMAL
   READ_DATA_WIDTH => 32,      -- DECIMAL
   READ_MODE => "std",         -- String
   RELATED_CLOCKS => 0,        -- DECIMAL
   SIM_ASSERT_CHK => 0,        -- DECIMAL; 0=disable simulation messages, 1=enable simulation messages
   USE_ADV_FEATURES => "0707", -- String
   WAKEUP_TIME => 0,           -- DECIMAL
   WRITE_DATA_WIDTH => 32,     -- DECIMAL
   WR_DATA_COUNT_WIDTH => 1    -- DECIMAL
)
port map (
   almost_empty => almost_empty,   -- 1-bit output: Almost Empty : When asserted, this signal indicates that
                                   -- only one more read can be performed before the FIFO goes to empty.

   almost_full => almost_full,     -- 1-bit output: Almost Full: When asserted, this signal indicates that
                                   -- only one more write can be performed before the FIFO is full.

   data_valid => data_valid,       -- 1-bit output: Read Data Valid: When asserted, this signal indicates
                                   -- that valid data is available on the output bus (dout).

   dbiterr => dbiterr,             -- 1-bit output: Double Bit Error: Indicates that the ECC decoder
                                   -- detected a double-bit error and data in the FIFO core is corrupted.

   dout => dout,                   -- READ_DATA_WIDTH-bit output: Read Data: The output data bus is driven
                                   -- when reading the FIFO.

   empty => empty,                 -- 1-bit output: Empty Flag: When asserted, this signal indicates that
                                   -- the FIFO is empty. Read requests are ignored when the FIFO is empty,
                                   -- initiating a read while empty is not destructive to the FIFO.

   full => full,                   -- 1-bit output: Full Flag: When asserted, this signal indicates that the
                                   -- FIFO is full. Write requests are ignored when the FIFO is full,
                                   -- initiating a write when the FIFO is full is not destructive to the
                                   -- contents of the FIFO.

   overflow => overflow,           -- 1-bit output: Overflow: This signal indicates that a write request
                                   -- (wren) during the prior clock cycle was rejected, because the FIFO is
                                   -- full. Overflowing the FIFO is not destructive to the contents of the
                                   -- FIFO.

   prog_empty => prog_empty,       -- 1-bit output: Programmable Empty: This signal is asserted when the
                                   -- number of words in the FIFO is less than or equal to the programmable
                                   -- empty threshold value. It is de-asserted when the number of words in
                                   -- the FIFO exceeds the programmable empty threshold value.

   prog_full => prog_full,         -- 1-bit output: Programmable Full: This signal is asserted when the
                                   -- number of words in the FIFO is greater than or equal to the
                                   -- programmable full threshold value. It is de-asserted when the number
                                   -- of words in the FIFO is less than the programmable full threshold
                                   -- value.

   rd_data_count => rd_data_count, -- RD_DATA_COUNT_WIDTH-bit output: Read Data Count: This bus indicates
                                   -- the number of words read from the FIFO.

   rd_rst_busy => rd_rst_busy,     -- 1-bit output: Read Reset Busy: Active-High indicator that the FIFO
                                   -- read domain is currently in a reset state.

   sbiterr => sbiterr,             -- 1-bit output: Single Bit Error: Indicates that the ECC decoder
                                   -- detected and fixed a single-bit error.

   underflow => underflow,         -- 1-bit output: Underflow: Indicates that the read request (rd_en)
                                   -- during the previous clock cycle was rejected because the FIFO is
                                   -- empty. Under flowing the FIFO is not destructive to the FIFO.

   wr_ack => wr_ack,               -- 1-bit output: Write Acknowledge: This signal indicates that a write
                                   -- request (wr_en) during the prior clock cycle is succeeded.

   wr_data_count => wr_data_count, -- WR_DATA_COUNT_WIDTH-bit output: Write Data Count: This bus indicates
                                   -- the number of words written into the FIFO.

   wr_rst_busy => wr_rst_busy,     -- 1-bit output: Write Reset Busy: Active-High indicator that the FIFO
                                   -- write domain is currently in a reset state.

   din => din,                     -- WRITE_DATA_WIDTH-bit input: Write Data: The input data bus used when
                                   -- writing the FIFO.

   injectdbiterr => injectdbiterr, -- 1-bit input: Double Bit Error Injection: Injects a double bit error if
                                   -- the ECC feature is used on block RAMs or UltraRAM macros.

   injectsbiterr => injectsbiterr, -- 1-bit input: Single Bit Error Injection: Injects a single bit error if
                                   -- the ECC feature is used on block RAMs or UltraRAM macros.

   rd_clk => rd_clk,               -- 1-bit input: Read clock: Used for read operation. rd_clk must be a
                                   -- free running clock.

   rd_en => rd_en,                 -- 1-bit input: Read Enable: If the FIFO is not empty, asserting this
                                   -- signal causes data (on dout) to be read from the FIFO. Must be held
                                   -- active-low when rd_rst_busy is active high.

   rst => rst,                     -- 1-bit input: Reset: Must be synchronous to wr_clk. The clock(s) can be
                                   -- unstable at the time of applying reset, but reset must be released
                                   -- only after the clock(s) is/are stable.

   sleep => sleep,                 -- 1-bit input: Dynamic power saving: If sleep is High, the memory/fifo
                                   -- block is in power saving mode.

   wr_clk => wr_clk,               -- 1-bit input: Write clock: Used for write operation. wr_clk must be a
                                   -- free running clock.

   wr_en => wr_en                  -- 1-bit input: Write Enable: If the FIFO is not full, asserting this
                                   -- signal causes data (on din) to be written to the FIFO. Must be held
                                   -- active-low when rst or wr_rst_busy is active high.

);

-- End of xpm_fifo_async_inst instantiation

Verilog Instantiation Template


// xpm_fifo_async: Asynchronous FIFO
// Xilinx Parameterized Macro, version 2022.1

xpm_fifo_async #(
   .CASCADE_HEIGHT(0),        // DECIMAL
   .CDC_SYNC_STAGES(2),       // DECIMAL
   .DOUT_RESET_VALUE("0"),    // String
   .ECC_MODE("no_ecc"),       // String
   .FIFO_MEMORY_TYPE("auto"), // String
   .FIFO_READ_LATENCY(1),     // DECIMAL
   .FIFO_WRITE_DEPTH(2048),   // DECIMAL
   .FULL_RESET_VALUE(0),      // DECIMAL
   .PROG_EMPTY_THRESH(10),    // DECIMAL
   .PROG_FULL_THRESH(10),     // DECIMAL
   .RD_DATA_COUNT_WIDTH(1),   // DECIMAL
   .READ_DATA_WIDTH(32),      // DECIMAL
   .READ_MODE("std"),         // String
   .RELATED_CLOCKS(0),        // DECIMAL
   .SIM_ASSERT_CHK(0),        // DECIMAL; 0=disable simulation messages, 1=enable simulation messages
   .USE_ADV_FEATURES("0707"), // String
   .WAKEUP_TIME(0),           // DECIMAL
   .WRITE_DATA_WIDTH(32),     // DECIMAL
   .WR_DATA_COUNT_WIDTH(1)    // DECIMAL
)
xpm_fifo_async_inst (
   .almost_empty(almost_empty),   // 1-bit output: Almost Empty : When asserted, this signal indicates that
                                  // only one more read can be performed before the FIFO goes to empty.

   .almost_full(almost_full),     // 1-bit output: Almost Full: When asserted, this signal indicates that
                                  // only one more write can be performed before the FIFO is full.

   .data_valid(data_valid),       // 1-bit output: Read Data Valid: When asserted, this signal indicates
                                  // that valid data is available on the output bus (dout).

   .dbiterr(dbiterr),             // 1-bit output: Double Bit Error: Indicates that the ECC decoder detected
                                  // a double-bit error and data in the FIFO core is corrupted.

   .dout(dout),                   // READ_DATA_WIDTH-bit output: Read Data: The output data bus is driven
                                  // when reading the FIFO.

   .empty(empty),                 // 1-bit output: Empty Flag: When asserted, this signal indicates that the
                                  // FIFO is empty. Read requests are ignored when the FIFO is empty,
                                  // initiating a read while empty is not destructive to the FIFO.

   .full(full),                   // 1-bit output: Full Flag: When asserted, this signal indicates that the
                                  // FIFO is full. Write requests are ignored when the FIFO is full,
                                  // initiating a write when the FIFO is full is not destructive to the
                                  // contents of the FIFO.

   .overflow(overflow),           // 1-bit output: Overflow: This signal indicates that a write request
                                  // (wren) during the prior clock cycle was rejected, because the FIFO is
                                  // full. Overflowing the FIFO is not destructive to the contents of the
                                  // FIFO.

   .prog_empty(prog_empty),       // 1-bit output: Programmable Empty: This signal is asserted when the
                                  // number of words in the FIFO is less than or equal to the programmable
                                  // empty threshold value. It is de-asserted when the number of words in
                                  // the FIFO exceeds the programmable empty threshold value.

   .prog_full(prog_full),         // 1-bit output: Programmable Full: This signal is asserted when the
                                  // number of words in the FIFO is greater than or equal to the
                                  // programmable full threshold value. It is de-asserted when the number of
                                  // words in the FIFO is less than the programmable full threshold value.

   .rd_data_count(rd_data_count), // RD_DATA_COUNT_WIDTH-bit output: Read Data Count: This bus indicates the
                                  // number of words read from the FIFO.

   .rd_rst_busy(rd_rst_busy),     // 1-bit output: Read Reset Busy: Active-High indicator that the FIFO read
                                  // domain is currently in a reset state.

   .sbiterr(sbiterr),             // 1-bit output: Single Bit Error: Indicates that the ECC decoder detected
                                  // and fixed a single-bit error.

   .underflow(underflow),         // 1-bit output: Underflow: Indicates that the read request (rd_en) during
                                  // the previous clock cycle was rejected because the FIFO is empty. Under
                                  // flowing the FIFO is not destructive to the FIFO.

   .wr_ack(wr_ack),               // 1-bit output: Write Acknowledge: This signal indicates that a write
                                  // request (wr_en) during the prior clock cycle is succeeded.

   .wr_data_count(wr_data_count), // WR_DATA_COUNT_WIDTH-bit output: Write Data Count: This bus indicates
                                  // the number of words written into the FIFO.

   .wr_rst_busy(wr_rst_busy),     // 1-bit output: Write Reset Busy: Active-High indicator that the FIFO
                                  // write domain is currently in a reset state.

   .din(din),                     // WRITE_DATA_WIDTH-bit input: Write Data: The input data bus used when
                                  // writing the FIFO.

   .injectdbiterr(injectdbiterr), // 1-bit input: Double Bit Error Injection: Injects a double bit error if
                                  // the ECC feature is used on block RAMs or UltraRAM macros.

   .injectsbiterr(injectsbiterr), // 1-bit input: Single Bit Error Injection: Injects a single bit error if
                                  // the ECC feature is used on block RAMs or UltraRAM macros.

   .rd_clk(rd_clk),               // 1-bit input: Read clock: Used for read operation. rd_clk must be a free
                                  // running clock.

   .rd_en(rd_en),                 // 1-bit input: Read Enable: If the FIFO is not empty, asserting this
                                  // signal causes data (on dout) to be read from the FIFO. Must be held
                                  // active-low when rd_rst_busy is active high.

   .rst(rst),                     // 1-bit input: Reset: Must be synchronous to wr_clk. The clock(s) can be
                                  // unstable at the time of applying reset, but reset must be released only
                                  // after the clock(s) is/are stable.

   .sleep(sleep),                 // 1-bit input: Dynamic power saving: If sleep is High, the memory/fifo
                                  // block is in power saving mode.

   .wr_clk(wr_clk),               // 1-bit input: Write clock: Used for write operation. wr_clk must be a
                                  // free running clock.

   .wr_en(wr_en)                  // 1-bit input: Write Enable: If the FIFO is not full, asserting this
                                  // signal causes data (on din) to be written to the FIFO. Must be held
                                  // active-low when rst or wr_rst_busy is active high.

);

// End of xpm_fifo_async_inst instantiation

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