pragma HLS bind_storage - 2022.2 English

Vitis High-Level Synthesis User Guide (UG1399)

Document ID
UG1399
Release Date
2022-12-07
Version
2022.2 English

Description

The BIND_STORAGE pragma assigns a variable (array, or function argument) in the code to a specific memory type (type) in the RTL. If the pragma is not specified, the Vitis HLS tool determines the memory type to assign. The HLS tool implements the memory using specified implementations (impl) in the hardware.

For example, you can use the pragma to specify which memory type to use to implement an array. This lets you control whether the array is implemented as a single or a dual-port RAM for example. Also, this allows you to control whether the array is implemented as a single or a dual-port RAM.

Important: This feature is important for arrays on the top-level function interface, because the memory type associated with the array determines the number and type of ports needed in the RTL, as discussed in Arrays on the Interface. However, for variables assigned to top-level function arguments you must assign the memory type and implementation using the -storage_type and -storage_impl options of the INTERFACE pragma or directive.

You can also specify the latency of the implementation. For block RAMs on the interface, the latency option lets you model off-chip, non-standard SRAMs at the interface, for example supporting an SRAM with a latency of 2 or 3. For internal operations, the latency option allows the memory to be implemented using more pipelined stages. These additional pipeline stages can help resolve timing issues during RTL synthesis.

Important: To use the latency option, the operation must have an available multi-stage implementation. The HLS tool provides a multi-stage implementation for all block RAMs.

Syntax

Place the pragma in the C/C++ source within the body of the function where the variable is defined.

#pragma HLS bind_storage variable=<variable> type=<type>\
[ impl=<value> latency=<int> ]

Where:

variable=<variable>
Defines the variable to assign the BIND_STORAGE pragma to. This is required when specifying the pragma.
Tip: If the variable is an argument of a top-level function, then use the -storage_type and -storage_impl options of the INTERFACE pragma or directive.
type=<type>
Defines the type of memory to bind to the specified variable.
Supported types include: fifo, ram_1p, ram_1wnr, ram_2p, ram_s2p, ram_t2p, rom_1p, rom_2p, rom_np.
Table 1. Storage Types
Type Description
FIFO A FIFO. Vitis HLS determines how to implement this in the RTL, unless the -impl option is specified.
RAM_1P A single-port RAM. Vitis HLS determines how to implement this in the RTL, unless the -impl option is specified.
RAM_1WNR A RAM with 1 write port and N read ports, using N banks internally.
RAM_2P A dual-port RAM that allows read operations on one port and both read and write operations on the other port.
RAM_S2P A dual-port RAM that allows read operations on one port and write operations on the other port.
RAM_T2P A true dual-port RAM with support for both read and write on both ports.
ROM_1P A single-port ROM. Vitis HLS determines how to implement this in the RTL, unless the -impl option is specified.
ROM_2P A dual-port ROM.
ROM_NP A multi-port ROM.
impl=<value>
Defines the implementation for the specified memory type. Supported implementations include: bram, bram_ecc, lutram, uram, uram_ecc, srl, memory, and auto as described below.
Table 2. Supported Implementation
Name Description
MEMORY Generic memory lets the Vivado tool choose the implementation.
URAM UltraRAM resource
URAM_ECC UltraRAM with ECC
SRL Shift Register Logic resource
LUTRAM Distributed RAM resource
BRAM Block RAM resource
BRAM_ECC Block RAM with ECC
AUTO Vitis HLS automatically determine the implementation of the variable.
Table 3. Supported Implementations by FIFO/RAM/ROM
Type Command/Pragma Scope Supported Implementations
FIFO bind_storage 1 local AUTO, BRAM, LUTRAM, URAM, MEMORY, SRL
FIFO config_storage global AUTO, BRAM, LUTRAM, URAM, MEMORY, SRL
RAM* | ROM* bind_storage local AUTO BRAM, BRAM_ECC, LUTRAM, URAM, URAM_ECC
RAM* | ROM* config_storage 2 global N/A
RAM_1P set_directive_interface s_axilite -storage_impl local

AUTO, BRAM, URAM

  config_interface -m_axi_buffer_impl global

AUTO, BRAM, LUTRAM, URAM

  1. When no implementation is specified the directive uses AUTOSRL behavior as a default. However, this value cannot be specified.
  2. config_storage only supports FIFO types.
latency=<int>
Defines the default latency for the binding of the type. As shown in the following table, the valid latency varies according to the specified type and impl. The default is -1, that lets Vitis HLS choose the latency.
Table 4. Supported Combinations of Memory Type, Implementation, and Latency
Type Implementation Min Latency Max Latency
FIFO BRAM 0 0
FIFO LUTRAM 0 0
FIFO MEMORY 0 0
FIFO SRL 0 0
FIFO URAM 0 0
RAM_1P AUTO 1 3
RAM_1P BRAM 1 3
RAM_1P LUTRAM 1 3
RAM_1P URAM 1 3
RAM_1WNR AUTO 1 3
RAM_1WNR BRAM 1 3
RAM_1WNR LUTRAM 1 3
RAM_1WNR URAM 1 3
RAM_2P AUTO 1 3
RAM_2P BRAM 1 3
RAM_2P LUTRAM 1 3
RAM_2P URAM 1 3
RAM_S2P BRAM 1 3
RAM_S2P BRAM_ECC 1 3
RAM_S2P LUTRAM 1 3
RAM_S2P URAM 1 3
RAM_S2P URAM_ECC 1 3
RAM_T2P BRAM 1 3
RAM_T2P URAM 1 3
ROM_1P AUTO 1 3
ROM_1P BRAM 1 3
ROM_1P LUTRAM 1 3
ROM_2P AUTO 1 3
ROM_2P BRAM 1 3
ROM_2P LUTRAM 1 3
ROM_NP BRAM 1 3
ROM_NP LUTRAM 1 3
Important: Any combinations of memory type and implementation that are not listed in the prior table are not supported by set_directive_bind_storage.

Example

The pragma specifies that the variable coeffs uses a single port RAM implemented on a BRAM core from the library.

#pragma HLS bind_storage variable=coeffs type=RAM_1P impl=bram
Tip: The ports created in the RTL to access the values of coeffs are defined in the RAM_1P.