DSP58 - 2022.1 English

Versal Architecture Prime Series Libraries Guide (UG1344)

Document ID
UG1344
Release Date
2022-04-20
Version
2022.1 English

Primitive: 58-bit Multi-Functional Arithmetic Block

  • PRIMITIVE_GROUP: ARITHMETIC
  • PRIMITIVE_SUBGROUP: DSP

Introduction

This design element is a versatile, scalable, integrated block that allows for the creation of compact, high-speed, arithmetic-intensive operations, such as those seen for many DSP algorithms. Some of the functions capable within the block include multiplication, addition, subtraction, accumulation, shifting, logical operations, and pattern detection.

Port Descriptions

Port Direction Width Function
XOROUT<7:0> Output 8 Data output from Wide XOR logic function
Cascade: Cascade Ports
ACIN<33:0> Input 34 Cascaded data input from ACOUT of previous DSP58. In legacy DSP48E2 mode, only the lower 30-bits of the bus are used. (multiplexed with A). If not used, tie port to all zeros.
ACOUT<33:0> Output 34 Cascaded data output to ACIN of next DSP58. If not used, leave unconnected. In legacy DSP48E2 mode, only lower 30-bits of the bus are used.
BCIN<23:0> Input 24 Cascaded data input from BCOUT of previous DSP58 (multiplexed with B). If not used, tie port to all zeros. In legacy DSP48E2 mode, only the lower 18-bits of the bus are used.
BCOUT<23:0> Output 24 Cascaded data output to BCIN of next DSP58. If not used, leave unconnected. In legacy DSP48E2 mode, only the lower 18-bits of the bus are used.
CARRYCASCIN Input 1 Cascaded carry input from CARRYCASCOUT of previous DSP58.
CARRYCASCOUT Output 1 Cascaded carry output to CARRYCASCIN of next DSP58. This signal is internally fed back into the CARRYINSEL multiplexer input of the same DSP58.
MULTSIGNIN Input 1 Sign of the multiplied result from the previous DSP58 block, or tie to ground if not used.
MULTSIGNOUT Output 1 Sign of the multiplied result cascaded to the next DSP58 for MACC extension. Connect to the MULTSIGNIN of another DSP block, or tie to ground if not used.
PCIN<57:0> Input 58 Cascaded data input from PCOUT of previous DSP58 to adder. If used, connect to PCOUT of upstream cascaded DSP58. If not used, tie port to all zeros.
PCOUT<57:0> Output 58 Cascaded data output to PCIN of next DSP58. If used, connect to PCIN of downstream cascaded DSP58. If not used, leave unconnected.
Control: Control Inputs/Status Bits
ALUMODE<3:0> Input 4 Controls the selection of the logic function in the DSP58.
CARRYINSEL<2:0> Input 3 Selects the carry source:
  • 0 0 0 - CARRYIN: CARRYIN or CARRYINREG
  • 0 1 0 - CARRYCASCIN: CARRYCASCIN
  • 0 1 1 - PCIN[57]: Rounding PCIN (round towards zero).
  • 1 0 0 - CARRYCASCOUT: For larger add/sub/acc (sequential operation via internal feedback). Must select with PREG=1.
  • 1 0 1 - ~P[57]: Rounding P (round towards infinity). Must select with PREG=1.
  • 1 1 0 - A[24]: XNOR B[17] Rounding A * B.
  • 1 1 1 - P[57]: For rounding P (round towards zero). Must select with PREG=1.
CLK Input 1 This port is the DSP58 input clock, common to all internal registers and flip-flops.
INMODE<4:0> Input 5 These five control bits select the functionality of the pre-adder, the A, B, and D inputs, and the input registers. If not used, these bits should be tied to all zeros.
NEGATE<2:0> Input 3 Selects if the multiplier input needs to be negated. In INT24 mode, only NEGATE[0] is used. In INT8 mode, all bits are used.
OPMODE<8:0> Input 9 Controls the input to the W, X, Y, and Z multiplexers in the DSP58 dictating the operation or function of the component.
OVERFLOW Output 1 Active-High overflow indicator when used with the appropriate setting of the pattern detector and PREG=1.
PATTERNBDETECT Output 1 Active-High match indicator between P[57:0] and the pattern bar.
PATTERNDETECT Output 1 Active-High match indicator between P[57:0] and the pattern gated by the MASK. Result arrives on the same cycle as P.
UNDERFLOW Output 1 Active-High underflow indicator when used with the appropriate setting of the pattern detector and PREG=1.
Data: Data Ports
A<33:0> Input 34 Data input for pre-adder, multiplier, adder/subtracter/accumulator, ALU, or concatenation operations.
  • When used with the multiplier or pre-adder, 27-bits of data (A[26:0]) are used and upper bits (A[33:27]) are unused and should be tied High.
  • When using the internal adder/subtracter/accumulator or ALU circuit, all 34-bits are used (A[33:0]). When used in concatenation mode, all 34-bits are used and this constitutes the MSB (upper) bits of the concatenated vector. If this port is not used, tie all bits High.
B<23:0> Input 24 The B input of the multiplier. B[23:0] are the least significant bits (LSBs) of the A:B concatenated input to the second-stage adder/subtracter or logic function. If this port is not used, tie all bits High. In legacy DSP48E2 mode, only 18-bits are used. The upper [23:18] bits are sign extended internally.
C<57:0> Input 58 Data input to the second-stage adder/subtracter, pattern detector, or logic function. If this port is not used, tie all bits High.
CARRYIN Input 1 Carry input from the device logic.
CARRYOUT<3:0> Output 4 4-bit carry output from each 12-bit field of the accumulate/adder/logic unit. Normal 58-bit operation uses only CARRYOUT3. SIMD operation can use four carry out bits (CARRYOUT[3:0]).
D<26:0> Input 27 27-bit data input to the pre-adder or alternative input to the multiplier. The pre-adder implements D + A as determined by the INMODE3 signal. If this port is not used, tie all bits High.
P<57:0> Output 58 Data output from second stage adder/subtracter or logic function.
Reset/Clock Enable: Reset/Clock Enable Inputs.
ASYNC_RST Input 1 Asynchronous reset for all registers. Input is only valid when RESET_MODE=ASYNC.
CEAD Input 1 Active-High, clock enable for the pre-adder output AD pipeline register. Tie to logic one if not used and ADREG=1. Tie to logic zero if ADREG=0.
CEALUMODE Input 1 Active-High, clock enable for ALUMODE (control inputs) registers (ALUMODEREG=1). Tie to logic one if not used.
CEA1 Input 1 Active-High, clock enable for the first A (input) register. This port is only used if AREG=2 or INMODE0 = 1. When two registers are used, this is the first sequentially. When Dynamic AB Access is used, this clock enable is applied for INMODE[0]=1. If the A port is not used, tie Low.
CEA2 Input 1 Active-High, clock enable for the second A (input) register. When two registers are used, this is the second sequentially. When one register is used (AREG=1), CEA2 is the clock enable. If the A port is not used, tie Low.
CEB1 Input 1 Active-High, clock enable for the first B (input) register. When two registers are used, this is the first sequentially. When Dynamic AB Access is used, this clock enable is applied for INMODE[4]=1. If the B port is not used, tie Low.
CEB2 Input 1 Active-High, clock enable for the second B (input) register. This port is only used if BREG=1 or 2. Tie to logic one if not used and BREG=1 or 2. Tie to logic zero if BREG=0. When two registers are used, this is the second sequentially. When one register is used (BREG=1), CEB2 is the clock enable.
CEC Input 1 Active-High, clock enable for the C (input) register (CREG=1). If the C port is not used, tie Low.
CECARRYIN Input 1 Active-High, clock enable for the CARRYIN (input from fabric) register (CARRYINREG=1). Tie to logic one if not used.
CECTRL Input 1 Active-High, clock enable for the OPMODE and CARRYINSEL (control inputs) registers (OPMODEREG=1 or CARRYINSELREG=1). Tie to logic one if not used.
CED Input 1 Active-High, clock enable for the D (input) registers (DREG=1). If the D port is not used, tie Low.
CEINMODE Input 1 Active-High, clock enable for the INMODE control input registers (INMODEREG=1). Tie to logic one if not used.
CEM Input 1 Active-High, Clock enable for the post-multiply M (pipeline) register and the internal multiply round CARRYIN register (MREG=1). Tie to logic one if not used.
CEP Input 1 Active-High, clock enable for the P (output) register (PREG=1). Tie to logic one if not used.
RSTA Input 1 Reset for both A (input) registers (AREG=1 or 2). Polarity is determined by the IS_RSTA_INVERTED attribute. Tie to logic zero if A port is not used.
RSTALLCARRYIN Input 1 Reset for the Carry (internal path) and the CARRYIN registers (CARRYINREG=1). Polarity is determined by the IS_RSTALLCARRYIN_INVERTED attribute. Tie to logic zero if not used.
RSTALUMODE Input 1 Reset for ALUMODE (control inputs) registers (ALUMODEREG=1). Polarity is determined by the IS_RSTALUMODE_INVERTED attribute. Tie to logic zero if not used.
RSTB Input 1 Reset for both B (input) registers (BREG=1 or 2). Polarity is determined by the IS_RSTB_INVERTED attribute. Tie to logic zero if B port is not used.
RSTC Input 1 Reset for the C (input) registers (CREG=1). Polarity is determined by the IS_RSTC_INVERTED attribute. Tie to logic zero if C port is not used.
RSTCTRL Input 1 Reset for OPMODE and CARRYINSEL (control inputs) registers (OPMODEREG=1 and/or CARRYINSELREG=1). Polarity is determined by the IS_RSTCTRL_INVERTED attribute. Tie to logic zero if not used.
RSTD Input 1 Reset for the D (input) register and for the pre-adder (output) AD pipeline register (DREG=1 and/or ADREG=1). Polarity is determined by the IS_RSTD_INVERTED attribute. Tie to logic zero if D port is not used.
RSTINMODE Input 1 Reset for the INMODE (control input) registers (INMODEREG=1). Polarity is determined by the IS_RSTINMODE_INVERTED attribute. Tie to logic zero if not used.
RSTM Input 1 Reset for the M (pipeline) registers (MREG=1). Polarity is determined by the IS_RSTM_INVERTED attribute. Tie to logic zero if not used.
RSTP Input 1 Reset for the P (output) registers (PREG=1). Polarity is determined by the IS_RSTP_INVERTED attribute. Tie to logic zero if not used.

Design Entry Method

Instantiation Yes
Inference Recommended
IP and IP Integrator Catalog Yes

Available Attributes

Attribute Type Allowed Values Default Description
Feature Control Attributes: Specifies how to use a given input data port (i.e., from general fabric, "DIRECT", or from another DSP58, "CASCADE").
A_INPUT STRING "DIRECT", "CASCADE" "DIRECT" Selects the input to the A port between direct input ("DIRECT") or the cascaded input from the previous DSP58 ("CASCADE").
AMULTSEL STRING "A", "AD" "A" Selects the input to the 27-bit A input of the multiplier.
B_INPUT STRING "DIRECT", "CASCADE" "DIRECT" Selects the input to the B port between parallel input ("DIRECT") or the cascaded input from the previous DSP58 ("CASCADE").
BMULTSEL STRING "B", "AD" "B" Selects the input to the 24-bit B input of the multiplier.
DSP_MODE STRING "INT24", "INT8" "INT24" Configures DSP to a particular mode of operation. Set to INT24 for legacy mode.
PREADDINSEL STRING "A", "B" "A" Selects the input to be added with D in the pre-adder
RND HEX %linebreak%%58'h000000000000000 to %linebreak%%58'h3ffffffffffffff All zeroes 58-bit value used as the Rounding Constant into the WMUX.
USE_MULT STRING "MULTIPLY", "DYNAMIC", "NONE" "MULTIPLY" Selects usage of the multiplier.
  • "MULTIPLY": Multiplier is being used.
  • "NONE": Saves power when using only the Adder/Logic Unit.
USE_SIMD STRING "ONE58", "FOUR12", "TWO24" "ONE58" Selects the mode of operation for the adder/subtracter. The attribute setting can be one 58-bit adder mode ("ONE58"), two 24- bit adder mode ("TWO24"), or four 12-bit adder mode ("FOUR12"). Typical Multiply-Add operations are supported when the mode is set to "ONE48". When "TWO24" or "FOUR12" mode is selected, the multiplier must not be used, and USE_MULT must be set to "NONE".
USE_WIDEXOR STRING "FALSE", "TRUE" "FALSE" Determines whether the Wide XOR is used or not
XORSIMD STRING "XOR24_34_58_116", "XOR12_22" "XOR24_34_58_116" Selects the mode of operation for the Wide XOR. The attribute setting can be one 1x116-bit/2x58-bit/2x34-bit/2x24-bit XOR modes (XOR24_34_58_116), or 2x22-bit/6x12-bit XOR mode (XOR12_22).
Pattern Detector Attributes: Pattern Detection Configuration/Specification
AUTORESET_PATDET STRING "NO_RESET", "RESET_MATCH", "RESET_NOT_MATCH" "NO_RESET" Automatically resets the P Register (accumulated value or counter value) on the next clock cycle, if a pattern detect event has occurred on this clock cycle. The "RESET_MATCH" and "RESET_NOT_MATCH" settings distinguish between whether the DSP58 should cause an auto reset of the P Register on the next cycle:
  • if the pattern is matched, or
  • whenever the pattern is not matched on the current cycle but was matched on the previous clock cycle
AUTORESET_PRIORITY STRING "RESET", "CEP" "RESET" When using the AUTORESET_PATDET feature, defines priority of AUTORESET versus clock enable (CEP).
MASK HEX %linebreak%%58'h000000000000000 to %linebreak%%58'h3ffffffffffffff 58'h0ffffffffffffff This 58-bit value is used to mask out certain bits during a pattern detection. When a MASK bit is set to 1, the corresponding pattern bit is ignored. When a MASK bit is set to 0, the pattern bit is compared.
PATTERN HEX %linebreak%%58'h000000000000000 to %linebreak%%58'h3ffffffffffffff All zeroes This 58-bit value is used in the pattern detector.
SEL_MASK STRING "MASK", "C", "ROUNDING_MODE1", "ROUNDING_MODE2" "MASK" Selects the mask to be used for the pattern detector. The C and MASK settings are for standard uses of the pattern detector (counter, overflow detection, etc.). ROUNDING_MODE1 (C-bar left shifted by 1) and ROUNDING_MODE2 (C-bar left shifted by 2) select special masks based off of the optionally registered C port. These rounding modes can be used to implement convergent rounding in the DSP58 using the pattern detector.
SEL_PATTERN STRING "PATTERN", "C" "PATTERN" Selects the input source for the pattern field. The input source can be a 58-bit dynamic C input or a 58-bit static PATTERN attribute field.
USE_PATTERN_DETECT STRING "NO_PATDET", "PATDET" "NO_PATDET" Selects whether the pattern detector and related features are used ("PATDET") or not used ("NO_PATDET"). This attribute is used for speed specification and Simulation Model purposes only.
Programmable Inversion Attributes: Specifies whether or not to use the optional inversions on specific pins for this component to change the active polarity of the pin function. When set to 1 on a clock pin (CLK), this component clocks on the negative edge. When set to 1 on other pins, it changes the function to behave active-Low rather than active-High. For pins that are buses, the bit-width of this attribute should match that of the bit-width of the associated pins and a binary value specifies which inverters to use and which to bypass. If an external inverter is specified on one of these associated pins, the Vivado Design Suite will automatically set this attribute during the opt_design stage so that additional logic is not necessary for changing the input polarity.
IS_ALUMODE_INVERTED BINARY 4'b0000 to 4'b1111 4'b0000 Specifies whether or not to use the optional inverter on the individual ALUMODE pins of this component. The default 4'b0000 indicates that all bits of the ALUMODE bus are not inverted. Each bit controls its respective bit of the ALUMODE bus.
IS_ASYNC_RST_INVERTED BINARY 1'b0 to 1'b1 1'b0 Specifies whether or not to use the optional inversion on the ASYNC_RST pin of this component. The default 1'b0 indicates that ASYNC_RST is not inverted.
IS_CARRYIN_INVERTED BINARY 1'b0 to 1'b1 1'b0 Specifies whether or not to use the optional inversion on the CARRYIN pin of this component. The default 1'b0 indicates that CARRYIN is not inverted.
IS_CLK_INVERTED BINARY 1'b0 to 1'b1 1'b0 Specifies whether or not to use the optional inversion on the CLK pin of this component. The default 1'b0 indicates that CLK is not inverted.
IS_INMODE_INVERTED BINARY 5'b00000 to 5'b11111 5'b00000 Specifies whether or not to use the optional inversions on the individual INMODE pins of this component. The default 5'b00000 indicates that all bits of the INMODE bus are not inverted. Each bit controls its respective bit of the INMODE bus.
IS_NEGATE_INVERTED BINARY 3'b000 to 3'b111 3'b000 Specifies whether or not to use the optional inversions on the individual NEGATE pins of this component. The default 3'b000 indicates that all bits of the NEGATE bus are not inverted. Each bit controls its respective bit of the NEGATE bus.
IS_OPMODE_INVERTED BINARY 9'b000000000 to 9'b111111111 9'b000000000 Specifies whether or not to use the optional inversions on the individual OPMODE pins of this component. The default 9'b000000000 indicates that all bits of the OPMODE bus are not inverted. Each bit controls its respective bit of the OPMODE bus.
IS_RSTA_INVERTED BINARY 1'b0 to 1'b1 1'b0 Specifies whether or not to use the optional inversion on the RSTA pin of this component. The default 1'b0 indicates that RSTA is not inverted.
IS_RSTALLCARRYIN_INVERTED BINARY 1'b0 to 1'b1 1'b0 Specifies whether or not to use the optional inversion on the RSTALLCARRYIN pin of this component. The default 1'b0 indicates that RSTALLCARRYIN is not inverted.
IS_RSTALUMODE_INVERTED BINARY 1'b0 to 1'b1 1'b0 Specifies whether or not to use the optional inversion on the RSTALUMODE pin of this component. The default 1'b0 indicates that RSTALUMODE is not inverted.
IS_RSTB_INVERTED BINARY 1'b0 to 1'b1 1'b0 Specifies whether or not to use the optional inversion on the RSTB pin of this component. The default 1'b0 indicates that RSTB is not inverted.
IS_RSTC_INVERTED BINARY 1'b0 to 1'b1 1'b0 Specifies whether or not to use the optional inversion on the RSTC pin of this component. The default 1'b0 indicates that RSTC is not inverted.
IS_RSTCTRL_INVERTED BINARY 1'b0 to 1'b1 1'b0 Specifies whether or not to use the optional inversion on the STCONJUGATE_A pin of this component. The default 1'b0 indicates that STCONJUGATE_A is not inverted.
IS_RSTD_INVERTED BINARY 1'b0 to 1'b1 1'b0 Specifies whether or not to use the optional inversion on the RSTD pin of this component. The default 1'b0 indicates that RSTD is not inverted.
IS_RSTINMODE_INVERTED BINARY 1'b0 to 1'b1 1'b0 Specifies whether or not to use the optional inversion on the RSTINMODE pin of this component. The default 1'b0 indicates that RSTINMODE is not inverted.
IS_RSTM_INVERTED BINARY 1'b0 to 1'b1 1'b0 Specifies whether or not to use the optional inversion on the RSTM pin of this component. The default 1'b0 indicates that RSTM is not inverted.
IS_RSTP_INVERTED BINARY 1'b0 to 1'b1 1'b0 Specifies whether or not to use the optional inversion on the RSTP pin of this component. The default 1'b0 indicates that RSTP is not inverted.
Register Control Attributes: Pipeline Register Configuration/Specification.
ACASCREG DECIMAL 1, 0, 2 1 In conjunction with AREG, selects the number of A input registers on the A cascade path, ACOUT. This attribute must be equal to or one less than the AREG value:
  • AREG=0: ACASCREG must be 0.
  • AREG=1: ACASCREG must be 1.
  • AREG=2: ACASCREG can be 1 or 2.
ADREG DECIMAL 1, 0 1 Selects the number of AD pipeline registers after the pre-adder.
ALUMODEREG DECIMAL 1, 0 1 Selects the number of ALUMODE input registers.
AREG DECIMAL 1, 0, 2 1 Selects the number of A input pipeline registers. If A port is not in use, set to 1.
BCASCREG DECIMAL 1, 0, 2 1 In conjunction with BREG, selects the number of B input registers on the B cascade path, BCOUT. This attribute must be equal to or one less than the BREG value:
  • BREG=0: BCASCREG must be 0.
  • BREG=1: BCASCREG must be 1.
  • BREG=2: BCASCREG can be 1 or 2.
BREG DECIMAL 1, 0, 2 1 Selects the number of B input registers. If B port is not in use, set to 1.
CARRYINREG DECIMAL 1, 0 1 Selects the number of CARRYIN input registers.
CARRYINSELREG DECIMAL 1, 0 1 Selects the number of CARRYINSEL input registers.
CREG DECIMAL 1, 0 1 Selects the number of C input registers. If C port is not in use, set to 1.
DREG DECIMAL 1, 0 1 Selects the number of D input registers. If D port is not in use, set to 1.
INMODEREG DECIMAL 1, 0 1 Selects the number of INMODE input registers.
MREG DECIMAL 1, 0 1 Selects the number of multiplier output (M) pipeline register stages.
OPMODEREG DECIMAL 1, 0 1 Selects the number of OPMODE input registers.
PREG DECIMAL 1, 0 1 Selects the number of P output registers. The registered outputs will include CARRYOUT, CARRYCASCOUT, MULTSIGNOUT, PATTERNB_DETECT, PATTERN_DETECT, and PCOUT.
RESET_MODE STRING "SYNC", "ASYNC" "SYNC" Selects if the enabled registers in the DSP are reset by their register specific synchronous resets (SYNC) or the common ASYNC_RST (ASYNC).

VHDL Instantiation Template

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

-- DSP58: 58-bit Multi-Functional Arithmetic Block
--        Versal Prime series
-- Xilinx HDL Language Template, version 2022.1

DSP58_inst : DSP58
generic map (
   -- Feature Control Attributes: Data Path Selection
   AMULTSEL => "A",                   -- Selects A input to multiplier (A, AD)
   A_INPUT => "DIRECT",               -- Selects A input source, "DIRECT" (A port) or "CASCADE" (ACIN port)
   BMULTSEL => "B",                   -- Selects B input to multiplier (AD, B)
   B_INPUT => "DIRECT",               -- Selects B input source, "DIRECT" (B port) or "CASCADE" (BCIN port)
   DSP_MODE => "INT24",               -- Configures DSP to a particular mode of operation. Set to INT24 for
                                      -- legacy mode.
   PREADDINSEL => "A",                -- Selects input to pre-adder (A, B)
   RND => X"000000000000000",         -- Rounding Constant
   USE_MULT => "MULTIPLY",            -- Select multiplier usage (DYNAMIC, MULTIPLY, NONE)
   USE_SIMD => "ONE58",               -- SIMD selection (FOUR12, ONE58, TWO24)
   USE_WIDEXOR => "FALSE",            -- Use the Wide XOR function (FALSE, TRUE)
   XORSIMD => "XOR24_34_58_116",      -- Mode of operation for the Wide XOR (XOR12_22, XOR24_34_58_116)
   -- Pattern Detector Attributes: Pattern Detection Configuration
   AUTORESET_PATDET => "NO_RESET",    -- NO_RESET, RESET_MATCH, RESET_NOT_MATCH
   AUTORESET_PRIORITY => "RESET",     -- Priority of AUTORESET vs. CEP (CEP, RESET).
   MASK => X"0ffffffffffffff",        -- 58-bit mask value for pattern detect (1=ignore)
   PATTERN => X"000000000000000",     -- 58-bit pattern match for pattern detect
   SEL_MASK => "MASK",                -- C, MASK, ROUNDING_MODE1, ROUNDING_MODE2
   SEL_PATTERN => "PATTERN",          -- Select pattern value (C, PATTERN)
   USE_PATTERN_DETECT => "NO_PATDET", -- Enable pattern detect (NO_PATDET, PATDET)
   -- Programmable Inversion Attributes: Specifies built-in programmable inversion on specific pins
   IS_ALUMODE_INVERTED => "0000",     -- Optional inversion for ALUMODE
   IS_CARRYIN_INVERTED => '0',        -- Optional inversion for CARRYIN
   IS_CLK_INVERTED => '0',            -- Optional inversion for CLK
   IS_INMODE_INVERTED => "00000",     -- Optional inversion for INMODE
   IS_NEGATE_INVERTED => "000",       -- Optional inversion for NEGATE
   IS_OPMODE_INVERTED => "000000000", -- Optional inversion for OPMODE
   IS_RSTALLCARRYIN_INVERTED => '0',  -- Optional inversion for RSTALLCARRYIN
   IS_RSTALUMODE_INVERTED => '0',     -- Optional inversion for RSTALUMODE
   IS_RSTA_INVERTED => '0',           -- Optional inversion for RSTA
   IS_RSTB_INVERTED => '0',           -- Optional inversion for RSTB
   IS_RSTCTRL_INVERTED => '0',        -- Optional inversion for STCONJUGATE_A
   IS_RSTC_INVERTED => '0',           -- Optional inversion for RSTC
   IS_RSTD_INVERTED => '0',           -- Optional inversion for RSTD
   IS_RSTINMODE_INVERTED => '0',      -- Optional inversion for RSTINMODE
   IS_RSTM_INVERTED => '0',           -- Optional inversion for RSTM
   IS_RSTP_INVERTED => '0',           -- Optional inversion for RSTP
   -- Register Control Attributes: Pipeline Register Configuration
   ACASCREG => 1,                     -- Number of pipeline stages between A/ACIN and ACOUT (0-2)
   ADREG => 1,                        -- Pipeline stages for pre-adder (0-1)
   ALUMODEREG => 1,                   -- Pipeline stages for ALUMODE (0-1)
   AREG => 1,                         -- Pipeline stages for A (0-2)
   BCASCREG => 1,                     -- Number of pipeline stages between B/BCIN and BCOUT (0-2)
   BREG => 1,                         -- Pipeline stages for B (0-2)
   CARRYINREG => 1,                   -- Pipeline stages for CARRYIN (0-1)
   CARRYINSELREG => 1,                -- Pipeline stages for CARRYINSEL (0-1)
   CREG => 1,                         -- Pipeline stages for C (0-1)
   DREG => 1,                         -- Pipeline stages for D (0-1)
   INMODEREG => 1,                    -- Pipeline stages for INMODE (0-1)
   MREG => 1,                         -- Multiplier pipeline stages (0-1)
   OPMODEREG => 1,                    -- Pipeline stages for OPMODE (0-1)
   PREG => 1,                         -- Number of pipeline stages for P (0-1)
   RESET_MODE => "SYNC"               -- Selection of synchronous or asynchronous reset. (ASYNC, SYNC).
)
port map (
   -- Cascade outputs: Cascade Ports
   ACOUT => ACOUT,                   -- 34-bit output: A port cascade
   BCOUT => BCOUT,                   -- 24-bit output: B cascade
   CARRYCASCOUT => CARRYCASCOUT,     -- 1-bit output: Cascade carry
   MULTSIGNOUT => MULTSIGNOUT,       -- 1-bit output: Multiplier sign cascade
   PCOUT => PCOUT,                   -- 58-bit output: Cascade output
   -- Control outputs: Control Inputs/Status Bits
   OVERFLOW => OVERFLOW,             -- 1-bit output: Overflow in add/acc
   PATTERNBDETECT => PATTERNBDETECT, -- 1-bit output: Pattern bar detect
   PATTERNDETECT => PATTERNDETECT,   -- 1-bit output: Pattern detect
   UNDERFLOW => UNDERFLOW,           -- 1-bit output: Underflow in add/acc
   -- Data outputs: Data Ports
   CARRYOUT => CARRYOUT,             -- 4-bit output: Carry
   P => P,                           -- 58-bit output: Primary data
   XOROUT => XOROUT,                 -- 8-bit output: XOR data
   -- Cascade inputs: Cascade Ports
   ACIN => ACIN,                     -- 34-bit input: A cascade data
   BCIN => BCIN,                     -- 24-bit input: B cascade
   CARRYCASCIN => CARRYCASCIN,       -- 1-bit input: Cascade carry
   MULTSIGNIN => MULTSIGNIN,         -- 1-bit input: Multiplier sign cascade
   PCIN => PCIN,                     -- 58-bit input: P cascade
   -- Control inputs: Control Inputs/Status Bits
   ALUMODE => ALUMODE,               -- 4-bit input: ALU control
   CARRYINSEL => CARRYINSEL,         -- 3-bit input: Carry select
   CLK => CLK,                       -- 1-bit input: Clock
   INMODE => INMODE,                 -- 5-bit input: INMODE control
   NEGATE => NEGATE,                 -- 3-bit input: Negates the input of the multiplier
   OPMODE => OPMODE,                 -- 9-bit input: Operation mode
   -- Data inputs: Data Ports
   A => A,                           -- 34-bit input: A data
   B => B,                           -- 24-bit input: B data
   C => C,                           -- 58-bit input: C data
   CARRYIN => CARRYIN,               -- 1-bit input: Carry-in
   D => D,                           -- 27-bit input: D data
   -- Reset/Clock Enable inputs: Reset/Clock Enable Inputs
   ASYNC_RST => ASYNC_RST,           -- 1-bit input: Asynchronous reset for all registers.
   CEA1 => CEA1,                     -- 1-bit input: Clock enable for 1st stage AREG
   CEA2 => CEA2,                     -- 1-bit input: Clock enable for 2nd stage AREG
   CEAD => CEAD,                     -- 1-bit input: Clock enable for ADREG
   CEALUMODE => CEALUMODE,           -- 1-bit input: Clock enable for ALUMODE
   CEB1 => CEB1,                     -- 1-bit input: Clock enable for 1st stage BREG
   CEB2 => CEB2,                     -- 1-bit input: Clock enable for 2nd stage BREG
   CEC => CEC,                       -- 1-bit input: Clock enable for CREG
   CECARRYIN => CECARRYIN,           -- 1-bit input: Clock enable for CARRYINREG
   CECTRL => CECTRL,                 -- 1-bit input: Clock enable for OPMODEREG and CARRYINSELREG
   CED => CED,                       -- 1-bit input: Clock enable for DREG
   CEINMODE => CEINMODE,             -- 1-bit input: Clock enable for INMODEREG
   CEM => CEM,                       -- 1-bit input: Clock enable for MREG
   CEP => CEP,                       -- 1-bit input: Clock enable for PREG
   RSTA => RSTA,                     -- 1-bit input: Reset for AREG
   RSTALLCARRYIN => RSTALLCARRYIN,   -- 1-bit input: Reset for CARRYINREG
   RSTALUMODE => RSTALUMODE,         -- 1-bit input: Reset for ALUMODEREG
   RSTB => RSTB,                     -- 1-bit input: Reset for BREG
   RSTC => RSTC,                     -- 1-bit input: Reset for CREG
   RSTCTRL => RSTCTRL,               -- 1-bit input: Reset for OPMODEREG and CARRYINSELREG
   RSTD => RSTD,                     -- 1-bit input: Reset for DREG and ADREG
   RSTINMODE => RSTINMODE,           -- 1-bit input: Reset for INMODE register
   RSTM => RSTM,                     -- 1-bit input: Reset for MREG
   RSTP => RSTP                      -- 1-bit input: Reset for PREG
);

-- End of DSP58_inst instantiation

Verilog Instantiation Template


// DSP58: 58-bit Multi-Functional Arithmetic Block
//        Versal Prime series
// Xilinx HDL Language Template, version 2022.1

DSP58 #(
   // Feature Control Attributes: Data Path Selection
   .AMULTSEL("A"),                    // Selects A input to multiplier (A, AD)
   .A_INPUT("DIRECT"),                // Selects A input source, "DIRECT" (A port) or "CASCADE" (ACIN port)
   .BMULTSEL("B"),                    // Selects B input to multiplier (AD, B)
   .B_INPUT("DIRECT"),                // Selects B input source, "DIRECT" (B port) or "CASCADE" (BCIN port)
   .DSP_MODE("INT24"),                // Configures DSP to a particular mode of operation. Set to INT24 for
                                      // legacy mode.
   .PREADDINSEL("A"),                 // Selects input to pre-adder (A, B)
   .RND(58'h000000000000000),         // Rounding Constant
   .USE_MULT("MULTIPLY"),             // Select multiplier usage (DYNAMIC, MULTIPLY, NONE)
   .USE_SIMD("ONE58"),                // SIMD selection (FOUR12, ONE58, TWO24)
   .USE_WIDEXOR("FALSE"),             // Use the Wide XOR function (FALSE, TRUE)
   .XORSIMD("XOR24_34_58_116"),       // Mode of operation for the Wide XOR (XOR12_22, XOR24_34_58_116)
   // Pattern Detector Attributes: Pattern Detection Configuration
   .AUTORESET_PATDET("NO_RESET"),     // NO_RESET, RESET_MATCH, RESET_NOT_MATCH
   .AUTORESET_PRIORITY("RESET"),      // Priority of AUTORESET vs. CEP (CEP, RESET).
   .MASK(58'h0ffffffffffffff),        // 58-bit mask value for pattern detect (1=ignore)
   .PATTERN(58'h000000000000000),     // 58-bit pattern match for pattern detect
   .SEL_MASK("MASK"),                 // C, MASK, ROUNDING_MODE1, ROUNDING_MODE2
   .SEL_PATTERN("PATTERN"),           // Select pattern value (C, PATTERN)
   .USE_PATTERN_DETECT("NO_PATDET"),  // Enable pattern detect (NO_PATDET, PATDET)
   // Programmable Inversion Attributes: Specifies built-in programmable inversion on specific pins
   .IS_ALUMODE_INVERTED(4'b0000),     // Optional inversion for ALUMODE
   .IS_CARRYIN_INVERTED(1'b0),        // Optional inversion for CARRYIN
   .IS_CLK_INVERTED(1'b0),            // Optional inversion for CLK
   .IS_INMODE_INVERTED(5'b00000),     // Optional inversion for INMODE
   .IS_NEGATE_INVERTED(3'b000),       // Optional inversion for NEGATE
   .IS_OPMODE_INVERTED(9'b000000000), // Optional inversion for OPMODE
   .IS_RSTALLCARRYIN_INVERTED(1'b0),  // Optional inversion for RSTALLCARRYIN
   .IS_RSTALUMODE_INVERTED(1'b0),     // Optional inversion for RSTALUMODE
   .IS_RSTA_INVERTED(1'b0),           // Optional inversion for RSTA
   .IS_RSTB_INVERTED(1'b0),           // Optional inversion for RSTB
   .IS_RSTCTRL_INVERTED(1'b0),        // Optional inversion for STCONJUGATE_A
   .IS_RSTC_INVERTED(1'b0),           // Optional inversion for RSTC
   .IS_RSTD_INVERTED(1'b0),           // Optional inversion for RSTD
   .IS_RSTINMODE_INVERTED(1'b0),      // Optional inversion for RSTINMODE
   .IS_RSTM_INVERTED(1'b0),           // Optional inversion for RSTM
   .IS_RSTP_INVERTED(1'b0),           // Optional inversion for RSTP
   // Register Control Attributes: Pipeline Register Configuration
   .ACASCREG(1),                      // Number of pipeline stages between A/ACIN and ACOUT (0-2)
   .ADREG(1),                         // Pipeline stages for pre-adder (0-1)
   .ALUMODEREG(1),                    // Pipeline stages for ALUMODE (0-1)
   .AREG(1),                          // Pipeline stages for A (0-2)
   .BCASCREG(1),                      // Number of pipeline stages between B/BCIN and BCOUT (0-2)
   .BREG(1),                          // Pipeline stages for B (0-2)
   .CARRYINREG(1),                    // Pipeline stages for CARRYIN (0-1)
   .CARRYINSELREG(1),                 // Pipeline stages for CARRYINSEL (0-1)
   .CREG(1),                          // Pipeline stages for C (0-1)
   .DREG(1),                          // Pipeline stages for D (0-1)
   .INMODEREG(1),                     // Pipeline stages for INMODE (0-1)
   .MREG(1),                          // Multiplier pipeline stages (0-1)
   .OPMODEREG(1),                     // Pipeline stages for OPMODE (0-1)
   .PREG(1),                          // Number of pipeline stages for P (0-1)
   .RESET_MODE("SYNC")                // Selection of synchronous or asynchronous reset. (ASYNC, SYNC).
)
DSP58_inst (
   // Cascade outputs: Cascade Ports
   .ACOUT(ACOUT),                   // 34-bit output: A port cascade
   .BCOUT(BCOUT),                   // 24-bit output: B cascade
   .CARRYCASCOUT(CARRYCASCOUT),     // 1-bit output: Cascade carry
   .MULTSIGNOUT(MULTSIGNOUT),       // 1-bit output: Multiplier sign cascade
   .PCOUT(PCOUT),                   // 58-bit output: Cascade output
   // Control outputs: Control Inputs/Status Bits
   .OVERFLOW(OVERFLOW),             // 1-bit output: Overflow in add/acc
   .PATTERNBDETECT(PATTERNBDETECT), // 1-bit output: Pattern bar detect
   .PATTERNDETECT(PATTERNDETECT),   // 1-bit output: Pattern detect
   .UNDERFLOW(UNDERFLOW),           // 1-bit output: Underflow in add/acc
   // Data outputs: Data Ports
   .CARRYOUT(CARRYOUT),             // 4-bit output: Carry
   .P(P),                           // 58-bit output: Primary data
   .XOROUT(XOROUT),                 // 8-bit output: XOR data
   // Cascade inputs: Cascade Ports
   .ACIN(ACIN),                     // 34-bit input: A cascade data
   .BCIN(BCIN),                     // 24-bit input: B cascade
   .CARRYCASCIN(CARRYCASCIN),       // 1-bit input: Cascade carry
   .MULTSIGNIN(MULTSIGNIN),         // 1-bit input: Multiplier sign cascade
   .PCIN(PCIN),                     // 58-bit input: P cascade
   // Control inputs: Control Inputs/Status Bits
   .ALUMODE(ALUMODE),               // 4-bit input: ALU control
   .CARRYINSEL(CARRYINSEL),         // 3-bit input: Carry select
   .CLK(CLK),                       // 1-bit input: Clock
   .INMODE(INMODE),                 // 5-bit input: INMODE control
   .NEGATE(NEGATE),                 // 3-bit input: Negates the input of the multiplier
   .OPMODE(OPMODE),                 // 9-bit input: Operation mode
   // Data inputs: Data Ports
   .A(A),                           // 34-bit input: A data
   .B(B),                           // 24-bit input: B data
   .C(C),                           // 58-bit input: C data
   .CARRYIN(CARRYIN),               // 1-bit input: Carry-in
   .D(D),                           // 27-bit input: D data
   // Reset/Clock Enable inputs: Reset/Clock Enable Inputs
   .ASYNC_RST(ASYNC_RST),           // 1-bit input: Asynchronous reset for all registers.
   .CEA1(CEA1),                     // 1-bit input: Clock enable for 1st stage AREG
   .CEA2(CEA2),                     // 1-bit input: Clock enable for 2nd stage AREG
   .CEAD(CEAD),                     // 1-bit input: Clock enable for ADREG
   .CEALUMODE(CEALUMODE),           // 1-bit input: Clock enable for ALUMODE
   .CEB1(CEB1),                     // 1-bit input: Clock enable for 1st stage BREG
   .CEB2(CEB2),                     // 1-bit input: Clock enable for 2nd stage BREG
   .CEC(CEC),                       // 1-bit input: Clock enable for CREG
   .CECARRYIN(CECARRYIN),           // 1-bit input: Clock enable for CARRYINREG
   .CECTRL(CECTRL),                 // 1-bit input: Clock enable for OPMODEREG and CARRYINSELREG
   .CED(CED),                       // 1-bit input: Clock enable for DREG
   .CEINMODE(CEINMODE),             // 1-bit input: Clock enable for INMODEREG
   .CEM(CEM),                       // 1-bit input: Clock enable for MREG
   .CEP(CEP),                       // 1-bit input: Clock enable for PREG
   .RSTA(RSTA),                     // 1-bit input: Reset for AREG
   .RSTALLCARRYIN(RSTALLCARRYIN),   // 1-bit input: Reset for CARRYINREG
   .RSTALUMODE(RSTALUMODE),         // 1-bit input: Reset for ALUMODEREG
   .RSTB(RSTB),                     // 1-bit input: Reset for BREG
   .RSTC(RSTC),                     // 1-bit input: Reset for CREG
   .RSTCTRL(RSTCTRL),               // 1-bit input: Reset for OPMODEREG and CARRYINSELREG
   .RSTD(RSTD),                     // 1-bit input: Reset for DREG and ADREG
   .RSTINMODE(RSTINMODE),           // 1-bit input: Reset for INMODE register
   .RSTM(RSTM),                     // 1-bit input: Reset for MREG
   .RSTP(RSTP)                      // 1-bit input: Reset for PREG
);

// End of DSP58_inst instantiation

Related Information

  • Versal ACAP DSP Engine Architecture Manual (AM004)