pragma HLS dependence - 2022.2 English

Vitis High-Level Synthesis User Guide (UG1399)

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

Description

Vitis HLS detects dependencies within loops: dependencies within the same iteration of a loop are loop-independent dependencies, and dependencies between different iterations of a loop are loop-carried dependencies. The DEPENDENCE pragma allows you to provide additional information to define, negate loop dependencies, and allow loops to be pipelined with lower intervals.

Loop-independent dependence
The same element is accessed in a single loop iteration.
for (i=0;i<N;i++) {
 A[i]=x;
 y=A[i];
}
Loop-carried dependence
The same element is accessed from a different loop iteration.
for (i=0;i<N;i++) {
 A[i]=A[i-1]*2;
}

These dependencies impact when operations can be scheduled, especially during function and loop pipelining.

Under some circumstances, such as variable dependent array indexing or when an external requirement needs to be enforced (for example, two inputs are never the same index), the dependence analysis might be too conservative and fail to filter out false dependencies. The DEPENDENCE pragma allows you to explicitly define the dependencies and eliminate a false dependence.

Important: Specifying a false dependency, when in fact the dependency is not false, can result in incorrect hardware. Ensure dependencies are correct (true or false) before specifying them.

Syntax

Place the pragma within the boundaries of the function where the dependence is defined.

#pragma HLS dependence variable=<variable> <class> \
<type> <direction> distance=<int> <dependent>

Where:

variable=<variable>
Optionally specifies the variable to consider for the dependence.
Important: You cannot specify a dependence for function arguments that are bundled with other arguments in an m_axi interface. This is the default configuration for m_axi interfaces on the function. You also cannot specify a dependence for an element of a struct, unless the struct has been disaggregated.
class=[array | pointer]
Optionally specifies a class of variables in which the dependence needs clarification. Valid values include array or pointer.
Tip: <class> and variable= should not be specified together as you can specify dependence for a variable, or a class of variables within a function.
type=[inter | intra]
Valid values include intra or inter. Specifies whether the dependence is:
intra
Dependence within the same loop iteration. When dependence <type> is specified as intra, and <dependent> is false, the HLS tool might move operations freely within a loop, increasing their mobility and potentially improving performance or area. When <dependent> is specified as true, the operations must be performed in the order specified.
inter
dependence between different loop iterations. This is the default <type>. If dependence <type> is specified as inter, and <dependent> is false, it allows the HLS tool to perform operations in parallel if the function or loop is pipelined, or the loop is unrolled, or partially unrolled, and prevents such concurrent operation when <dependent> is specified as true.
direction=[RAW | WAR | WAW]
This is relevant for loop-carry dependencies only, and specifies the direction for a dependence:
RAW (Read-After-Write - true dependence)
The write instruction uses a value used by the read instruction.
WAR (Write-After-Read - anti dependence)
The read instruction gets a value that is overwritten by the write instruction.
WAW (Write-After-Write - output dependence)
Two write instructions write to the same location, in a certain order.
distance=<int>
Specifies the inter-iteration distance for array access. Relevant only for loop-carry dependencies where dependence is set to true.
<dependent>
The <dependent> argument should be specified to indicate whether a dependence is true and needs to be enforced, or is false and should be removed. However, when not specified, the tool will return a warning that the value was not specified and will assume a value of false. The accepted values are true or false.

Example 1

In the following example, the HLS tool does not have any knowledge about the value of cols and conservatively assumes that there is always a dependence between the write to buff_A[1][col] and the read from buff_A[1][col]. In an algorithm such as this, it is unlikely cols will ever be zero, but the HLS tool cannot make assumptions about data dependencies. To overcome this deficiency, you can use the DEPENDENCE pragma to state that there is no dependence between loop iterations (in this case, for both buff_A and buff_B).

void foo(int rows, int cols, ...)
  for (row = 0; row < rows + 1; row++) {
    for (col = 0; col < cols + 1; col++) {
      #pragma HLS PIPELINE II=1
      #pragma HLS dependence variable=buff_A type=inter false
      #pragma HLS dependence variable=buff_B type=inter false
      if (col < cols) {
      buff_A[2][col] = buff_A[1][col]; // read from buff_A[1][col]
      buff_A[1][col] = buff_A[0][col]; // write to buff_A[1][col]
      buff_B[1][col] = buff_B[0][col];
      temp = buff_A[0][col];
}

Example 2

Removes the dependence between Var1 in the same iterations of loop_1 in function func.

#pragma HLS dependence variable=Var1 type=intra false

Example 3

Defines the dependence on all arrays in loop_2 of function func to inform the HLS tool that all reads must happen after writes (RAW) in the same loop iteration.

#pragma HLS dependence class=array type=intra direction=RAW true