Host Memory Access

Some of the recent Alveo cards support direct host memory access by the kernel(s) to read/write data directly from/to the host memory. Unlike the XDMA data transfer, this data transfer mechanism does not utilize global memories (DDR, HBM, PLRAM, etc) on the card. This feature provides DMA bypass capability that is primarily used for data transfer on a No-DMA platform.

Kernel Compilation

Use the following V++ configuration option to configure kernel port’s connectivity to allow drive data through the AXI bridge to the host memory.

[connectivity]
## Syntax
sp=my_kernel_1.m_axi_gmem:HOST[0]

Host Server Setup

To enable host memory access functionality the following settings are required from the host

Hugepage Requirement

If the kernel requirement of the host memory is more than 1GB, XRT allocates multiple Hugepages from the host memory. These hugepages are internally remapped (inside the FPGA shell) so that kernel can see a large contiguous bank-like memory.

Steps required to enable Hugepages (Linux)

  1. Modify grub setup by changing the following line of the file /etc/default/grub

    GRUB_CMDLINE_LINUX_DEFAULT=”splash quiet noresume hugepagesz=1G hugepages=4”

  2. shell>update-grub

  3. Reboot the server

  4. Verify the HugePage setting

shell>hugeadm --pool-list

    Size         Minimum  Current  Maximum  Default
    2097152        0        0        0        *
    1073741824     4        4        4

The following table can be used to determine the number of Hugepages required based on the host memory requirement

Host Mem Requirement Huge Page Setting
M <= 1GB Not Required
M>1GB and M<=2GB No of 1G HugePages = 2
M>2GB and M<=4GB No of 1G HugePages = 4
M>4GB and M<=8GB No of 1G HugePages = 8
M>8GB and M<=16GB No of 1G HugePages = 16

Enabling the Host Memory by XRT

Irrespective of the Hugepages settings, xbutil configure --host-mem command must be used to reserve the host memory for the kernel. This has to be done upfront before the XCLBIN download. In the example below, sudo xbutil configure --host-mem -d <bdf> command is used to reserve 1G, 4G, and 16G host memory respectively for 3 cards.

sudo xbutil configure --host-mem -d 0000:a6:00.1 --size 1G enable
sudo xbutil configure --host-mem -d 0000:73:00.1 --size 4G enable
sudo xbutil configure --host-mem -d 0000:17:00.1 --size 16G enable

Maximum Host memory supported by the platform

For the platform supporting the host memory access feature, we can observe the following two data from the xbutil examine -r pcie-info -d <bdf> output

  • Max Shared Host Memory: The maximum host memory supported by the platform.
  • Shared Host Memory: The host memory specified for this card (by xbutil configure --host-mem)

Assuming the platform supported maximum host memory is 16GB, the following output will be observed when the card is configured for 1GB host memory, no xclbin loaded.

shell>>sudo xbutil configure --host-mem -d 0000:17:00.1 --size 1G enable

Host-mem enabled successfully
shell>>xbutil examine -r pcie-info -d 0000:17:00.1

-----------------------------------------------
1/1 [0000:a6:00.1] : xilinx_u250_gen3x16_xdma_shell_3_1
-----------------------------------------------
Pcie Info
  Vendor                 : 0x10ee
  Device                 : 0x5005
  Sub Device             : 0x000e
  Sub Vendor             : 0x10ee
  PCIe                   : Gen3x16
  DMA Thread Count       : 2
  CPU Affinity           : 16-31,48-63
  Shared Host Memory     : 1 GB
  Max Shared Host Memory : 0 Byte
  Enabled Host Memory    : 0 Byte

When you load an xclbin with the host mem support, the Max Shared Host Mem gets populated.

shell>>xbutil examine -r pcie-info -d 0000:17:00.1

-----------------------------------------------
1/1 [0000:a6:00.1] : xilinx_u250_gen3x16_xdma_shell_3_1
-----------------------------------------------
Pcie Info
  Vendor                 : 0x10ee
  Device                 : 0x5005
  Sub Device             : 0x000e
  Sub Vendor             : 0x10ee
  PCIe                   : Gen3x16
  DMA Thread Count       : 2
  CPU Affinity           : 16-31,48-63
  Shared Host Memory     : 1 GB
  Max Shared Host Memory : 16 GB
  Enabled Host Memory    : 0 Byte

Finally, when you run an application which exercises HOST[0], Enabled Host Memory is populated.

shell>>xbutil examine -r pcie-info -d 0000:17:00.1

-----------------------------------------------
1/1 [0000:a6:00.1] : xilinx_u250_gen3x16_xdma_shell_3_1
-----------------------------------------------
Pcie Info
  Vendor                 : 0x10ee
  Device                 : 0x5005
  Sub Device             : 0x000e
  Sub Vendor             : 0x10ee
  PCIe                   : Gen3x16
  DMA Thread Count       : 2
  CPU Affinity           : 16-31,48-63
  Shared Host Memory     : 1 GB
  Max Shared Host Memory : 16 GB
  Enabled Host Memory    : 1 GB

Host code Guideline

XRT OpenCL introduces a new buffer extension Flag XCL_MEM_EXT_HOST_ONLY that should be used to denote a Host-only buffer

cl_mem_ext_ptr_t host_buffer_ext;
host_buffer_ext.flags = XCL_MEM_EXT_HOST_ONLY;
host_buffer_ext.obj = NULL;
host_buffer_ext.param = 0;

cl::Buffer buffer_in (context,CL_MEM_READ_ONLY |CL_MEM_EXT_PTR_XILINX, size, &host_buffer_ext);
cl::Buffer buffer_out(context,CL_MEM_WRITE_ONLY |CL_MEM_EXT_PTR_XILINX, size, &host_buffer_ext);

In XRT Native APIs the xrt::bo object should be created with the flag xrt::bo::flags::host_only as shown in the example below

xrt::bo buffer_in (device, size, xrt::bo::flags::host_only, kernel.group_id(0));
xrt::bo buffer_out(device, size, xrt::bo::flags::host_only, kernel.group_id(1));

Also ensure to follow coding guideline as stated below

  • Let XRT allocate the buffer as shown in the above code examples. Do not create a buffer from an already created user-space memory. The host code should map the buffer object to the user-space for read/write operation.
  • Regular data transfer APIs (OpenCL: clEnqueueMigramemObjects/clEnqueueWriteBuffer, XRT Native API: xrt::bo::sync()) should be used. Though these API will not do any DMA operation, they are used for Cache Invalidate/Flush as the application works on the Cache memory.