PCIe 1.1 Controller supporting Root Port, Endpoint, Dual-mode Configurations, with Built-in DMA and Configurable AMBA AXI Interconnect

Overview

Rambus PCIe 1.1 Controller with AXI is a configurable and scalable PCIe controller Soft IP designed for ASIC and FPGA implementation. Rambus PCIe 1.1 Controller with AXI is compliant with the PCI Express 1.1 specifications, as well as with the PHY Interface for PCI Express (PIPE) specification and the AMBA® AXI™ Protocol Specification. The IP can be configured to support endpoint, root port, and dual-mode topologies, allowing for a variety of use models, and exposes a configurable, flexible AMBA AXI interconnect interface to the user. The provided Graphical User Interface (GUI) Wizard allows designers to tailor the IP to their exact requirements, by enabling, disabling, and adjusting a vast array of parameters, including number, type, and width of AXI interfaces, PIPE interface width, low power support, SR-IOV, ECC, AER, etc. for optimal throughput, latency, size and power. Users may optionally enable the built-in Legacy DMA engine based on the application requirements. Rambus PCIe 1.1 Controller with AXI is the #1 choice for designers requiring enterprise-class features, highest performance, reliability, and scalability.

Key Features

  • PCIe Interface
    • Complies with the PCI Express Base 4.0 Specification,
    • Supports Endpoint and rootport configuration
    • Supports x16, x8, x4, x2, x1 at Gen4, Gen3, Gen2, Gen1 speeds
    • Implements one Virtual Channel
    • Data protection (ECC, ECRC)
    • Maximum payload size of up to 4KB
    • Configurable Receive and Transmit Buffer size
    • Supports SR-IOV, 6 BARs+ EPROM and Open interrupt interface, enabling SATA Express implementation
    • Advanced features include: Advanced Error Reporting (AER), ECRC, MSI, MSI-X, ASPM and legacy power management, Lane Reversal, Hot Plug, peer-to-peer transactions, LTR
    • PIPE 4.0 and PIE-8 compliant PHY interface 32-bit/250MHz in Gen3 mode on x1, x4, x8
    • 16-bit mode supported only on x1, x4, x8 and x16
  • Supported silicon:
    • Process node/foundry agnostic digital controller
    • Interoperable with PIPE 4.0 and PIE-8 compliant analog PHY IP
    • Altera Stratix V, Xilinx Virtex-7
  • AMBA AXI Interface
    • Compliant to the AMBA AXI Specification v1.0 (AXI3) and AMBA AXI Specification v2.0 (AXI4)
    • AXI-Lite Slave interface for IP configuration
    • AXI-Lite Master interface to configure up to 8KB of user defined registers in AXI domain
    • Multiple combination (configurable) of AXI Master, AXI Slave, AXI Stream interfaces
    • Separate clock domains for each AXI interface
    • Configurable data-path (64-bits/128-bits/256-bits)
  • Data Engine and Address translation for PCIe-to-AXI and AXI-to-PCIe transfers
    • Up to 8 DMA Engines for PCIe-to-AXI, AXI-to-PCIe, AXI-to-AXI transfers Up to 4GB (block) or infinite length transfers (packet)
    • Up to 16 outstanding requests
    • Support completion reordering
    • Advanced Scatter-Gather DMA modes
    • Reporting into Scatter Gather Descriptor
    • Caching of descriptors to optimize throughput
    • Up to 16 reconfigurable address translation tables for PCIe interface
    • Up to 8 reconfigurable address translation tables per AXI4 slave interface

Benefits

  • 20+ years of experience in design of IP cores for ASIC with specialization in high-speed interface protocols and technologies, more than 6200 customers , including several hundred of ASIC tape-outs
  • Silicon target 16 nm FinFET TSMC and 28 nm roadmap
  • Configurable user interface with clock-domain-crossing provides maximum interfacing flexibility and throughput.
  • Engineered for both ASIC/SoC and FPGA implementations. Allows seamless migration from FPGA prototyping design to ASIC/SoC production design with same RTL. Fully timing closed on leading edge FPGA from Altera and Xilinx.
  • Advanced AMBA AXI interconnect enables heterogeneous SoC interfacing. Allows AXI3 and AXI4 peripherals to coexist and communicate efficiently through the interconnect interface.
  • Fully configurable communication engine features programmable DMA and Address Translation Windows, allowing flexible and high-performance AXI-to-PCIe, PCIe-to-AXI, and AXI-to-AXI data transfers.
  • Smart ordering rules management enables hazards and deadlocks prevention while ensuring optimized traffic flow.
  • Configurable error detection and reporting enables application specific error management thus simplifying application software.
  • Support for advanced Low Power states enables lower power consumption in energy-conscious applications
  • Flexible PCIe interface configuration in endpoint and root port modes. Includes ECAM support for dynamic configuration of the entire PCIe hierarchy from the AXI domain.
  • Provided with latency optimized Linux x64 PCIe device driver allowing immediate software development. Driver source code available for custom developments.

Applications

  • HPC,
  • Cloud Computing,
  • AI,
  • Machine Learning,
  • Enterprise,
  • Networking,
  • Automotive,
  • AR/VR,
  • Test and Measurement

Deliverables

  • Verilog RTL,
  • Supporting Documentation

Technical Specifications

Foundry, Node
Any
Maturity
In production
Availability
Available
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Semiconductor IP