CPM - 2020.2 English

Versal ACAP Design Guide (UG1273)

Document ID
UG1273
Release Date
2021-03-26
Version
2020.2 English

The Versal architecture includes several blocks for implementation of high performance, standards-based interfaces built on PCI™ -SIG technologies. In Versal ACAPs that contain a CPM, the CPM provides the primary interfaces for designs following the server system methodology. As part of the Versal architecture integrated shell, the CPM has dedicated connections to the NoC over which it can access DDR and other hardened IP. The CPM is configured separately from the programmable logic, which enables the integrated shell to become operational quickly after boot without the need to configure the PL. This separate configuration addresses a common power-up and reset timing challenge imposed by the PCIe specification. Two implementations of the CPM exist: CPM4 and CPM5.

In Versal ACAPs with an available CPM4, the block is compliant with the PCIe Base Specification Revision 4.0 and capable of supporting defined line rates up to the maximum of 16 GT/s. CPM4 contains two PCIe controllers with shared access to 16 GTY transceivers, and integrates a single direct memory access (DMA) controller functionality (either QDMA or XDMA that is user selectable) associated with CPM PCIe Controller #0. Cache Coherent Interconnect for Accelerators (CCIX) support in CPM4 complies with CCIX Base Specification Revision 1.0.

In Versal ACAPs with an available CPM5, the block is compliant with the PCIe Base Specification Revision 5.0 and capable of supporting defined line rates up to the maximum of 32 GT/s. CPM5 contains two PCIe controllers with dedicated access to 16 GTYP transceivers. CPM5 integrates two DMA controllers (both QDMA) each associated with CPM PCIe Controller #0 and CPM PCIe Controller #1. CCIX support in CPM5 complies with CCIX Base Specification Revision 1.1.

CPM4 and CPM5 include the following additional components:

  • The coherent mesh network (CMN) forms the CCIX block, which is based on the Arm CoreLink CMN-600.
  • There are two Coherent Hub Interface (CHI) PL interface (CPI) blocks. CPM4 has one L2 cache instance, and CPM5 has two L2 cache instances. CPI blocks interface with the accelerators in the PL and perform 512-to-256 bit data width conversion and clock domain crossing into the internal core clock.
  • The non-coherent interconnect block, which interfaces with the PS for access to the NoC and DDRMC. The interconnect is connected to all of the other sub-blocks via an advanced peripheral bus (APB) or AXI slave interface for configuration.
  • A clock/reset block, which includes a phase-locked loop (PLL) and clock dividers.

CPM availability is device specific. For information, see the Versal Architecture and Product Data Sheet: Overview (DS950). For more information on CPM, see the Versal ACAP CPM CCIX Architecture Manual (AM016), Versal ACAP CPM Mode for PCI Express Product Guide (PG346) , and Versal ACAP CPM DMA and Bridge Mode for PCI Express Product Guide (PG347) .

Note: Versal ACAP also supports implementation of subsystems based on PCI-SIG technologies in the PL fabric, similar to previous device families.