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Slug: InterconnectStandards Title: Comparison of On-Chip Bus Standards Date: 2016-12-15 22:44

Introduction

This document contains a brief summary of different on-chip bus standards. The standards are described and compared based on license and availability, technical specifications and general usage.

The purpose of the document is to provide a basis for selecting the primary bus standard for the Cryptech Open HSM project.

Overview

System on Chip (SoC) designs require some sort of connectivity between the different components (called cores or IP-cores, as in Intellectual Property) that are placed onto the same die.

There are several standards for on-chip interconnect, standards that provide technical diversity that might be required by the system. Typical differences are:

  • Performance. The capacity as well as latency.

  • Intelligence. Simple master-slave read/write access or DMA-transfers, coherence support etc.

  • point to point or point to multipoint. Basically bus based or switch fabric.

There are also non-technical differences:

  • Licensing and pricing. Does using a standard add monetary cost and does using the standard infer restrictions in sharing, disclosure of source code?

  • Market share. The market share is primarily interesting as basis for the availability of other cores that could be integrated.

Description of Standards

AMBA

AMBA (Advanced Microcontroller Bus Architecture) (1), (2) is a family of interconnect standards from ARM Ltd. AMBA is widely used in systems implemented in ASICs (for example mobile phone platforms), but are also used in FPGAs. AMBA is for example used by the LEON (3) processor cores and subsystem GRLIB.

AMBA currently contains four main interconnect types:

  • APB. A simple register read/write bus used to connect simpler devices such as timers, IRQ handlers, slow serial I/O such as UARTS and GPIO interfaces. The peripherals are connected to a common bus with a single master.

  • AHB. A more advanced bus based interconnect. Supports more complex data transfers of up to 1 kByte data. Supports multiple masters.

  • AXI. A switch fabric based interconnect that supports multiple parallel transfers, multiple masters etc.

  • ACE. A low latency interconnect that supports cache coherency to allow the design of multicore, multiprocessor systems on-chip.

(There are also additional protocols in the AMBA specification for things like tracing etc.)

The license model for AMBA is Open according to ARM. This seems to mean that one can use AMBA to build a system. But at the same time, ARM has intellectual properties to parts of the technology as well as trademarks. For more information on ARM licensing, see (4).

The OpenCores project (7) lists several cores as well as tools for different AMBA interconnect types.

Pros:

  • Technically advanced and covers a wide range of system requirements.

  • A huge user base.

  • A huge selection of third party support in terms of tools as well as cores. Most of these cores and tools are commercial and proprietary, closed source.

Cons:

  • Licensing. Would Cryptech need to get a license?

  • Availability of open cores

Avalon

Avalon (5) is a proprietary switch fabric interconnect from Altera corporation. It is used in systems developed using the Altera Nios-II (6) family of soft processor cores and related peripherals.

According to Altera, the license for Avalon is open: "Avalon interfaces are an open standard. No license or royalty is required to develop and sell products that use, or are based on Avalon interfaces."

As far as we can discern, Avalon is not generally used outside of Altera based designs and not supported by a large group of third party vendors. The OpenCores project lists only a few cores that uses Avalon as interface standard.

= Pros:

  • Good technical features.

  • Easy integration in Nios-II based systems.

Cons:

  • Limited to Altera based FPGA designs.

  • Low support from open and proprietary third party suppliers of tools and cores.

CoreConnect

CoreConnect (8) is an interconnect standard initially developed by IBM. The standard is now used by several vendors, for example the FPGA-vendor Xilinx(9).

Similarly to AMBA, CoreConnect contains several types of buses providing simple peripheral access (DCR), high speed access for processor based systems (OPB), as well as multicore solutions (PLB).

The license for CoreConnect is granted by IBM (10). The license seems to be an AS IS-license, but contains a lot of other regulations. IBM holds a number of patents related to CoreConnect (see the license agreement).

Pros:

  • Good support on for systems implemented on Xilinx FPGAs.

Cons:

  • Low support by open cores and tools.
  • License agreement.

OCP

The Open Core Protocol (11) is a vendor neutral open interconnect standard being developed by the EDA standards organisation Accellera (12). The standards was previously developed by the vendor organisation OCP-IP (13), but were transferred to Accellera in October 2013.

Like AMBA, OCP contains a wide range of interconnect types from simple register read/write access over a common bus to point to point-interconnect and coherency support.

There are quite a few commercial cores using OCP, but there seem to be very few open cores using OCP. OpenCores only lists a few cores and they are all bridges used to connect OCP to AMBA or Wishbone.

The license for accessing the specification itself is an amended AS IS-type license(14). The license for the interconnect seems to be rather open.

Pros:

  • Good technical features.

Cons:

  • Not very common in use by open cores.

Wishbone

Wishbone (15)(16) (often written WISHBONE) is an open interconnect standard developed by members of the OpenCore project as an alternative to commercial solutions - primarily AMBA.

Wishbone supports bus based as well as switch fabric interconnect solutions of Wishbone cores. There are cores and tools to create CPU based systems with buses and fabrics. Technically Wishbone is simpler that AMBA and CoreConnect, but provides multimasters, point to point switch fabrics, etc.

There are tools available to generate Wishbone interfaces for a core as well as creating a Wishbone connected system with different types of interconnect solutions.

The main use is related to the OpenRISC CPU core platform (17)(18). OpenCores lists a huge selection of cores with Wishbone support. The majority of these cores have LGPL and GPL licenses. There are also third party commercial vendors that support Wishbone cores and systems.

The license for the Wishbone standard is public domain and dos not impose any restrictions on usage in cores and systems. The specification document itself is close to Creative Commons CC-BY.

Pros:

  • Fairly good technical support.
  • Good support from open tools and cores.
  • Public domain license.

Cons:

  • Not as advanced. No good coherency support for example.

Conclusions

OF the different standards, only two standards are really interesting for Cryptech - AMBA and Wishbone.

From a technical point of view, selecting AMBA would be the proper choice. AMBA provides all types of interconnect that a Cryptech implementation might need. Also, building a Cryptech implementation using third party cores (CPU cores for example) would be easier with AMBA than the other standards. Wher AMBA falls short is the questions related to licensing as well as the a bit less common support from open cores and tools.

Based on ease of licensing, openness and availability of open cores, Wishbone is an easy choice. Wishbone would quite probably meet all performance and functionality requirements a Cryptech implementation might have. Integration with and support from commercial cores, tools and vendors will however not be as good. Choosing Wishbone will quite probably mean more work for the Cryptech project to deliver cores and tools. And for the users of Cryptech Wishbone may also require more work and thus reduce the interest Cryptech as a HSM solution.

References

  1. https://en.wikipedia.org/wiki/Advanced_Microcontroller_Bus_Architecture

  2. http://www.arm.com/products/system-ip/amba/amba-open-specifications.php

  3. https://en.wikipedia.org/wiki/LEON

  4. http://www.arm.com/products/system-ip/amba/index.php?tab=AMBA+Trademark+Guidelines

  5. http://www.altera.com/literature/manual/mnl_avalon_spec.pdf

  6. http://www.altera.com/devices/processor/nios2/ni2-index.html

  7. http://opencores.org/

  8. https://en.wikipedia.org/wiki/CoreConnect

  9. http://www.xilinx.com/products/intellectual-property/dr_pcentral_coreconnect.htm

  10. http://www.xilinx.com/ipcenter/doc/ibm_click_core_connect_license.pdf

  11. https://en.wikipedia.org/wiki/Open_Core_Protocol

  12. https://en.wikipedia.org/wiki/Accellera

  13. http://www.ocpip.org/

  14. http://www.ocpip.org/license_signup.php

  15. http://opencores.org/opencores,wishbone

  16. https://en.wikipedia.org/wiki/Wishbone_(computer_bus)

  17. http://openrisc.net/

  18. http://opencores.org/or1k/Main_Page

This document has been written by Joachim Strömbergson.

(c) 2014 SUNET - The Swedish University Network

This document is licensed under a Creative Commons license (CC BY 3.0). For more information, see:

https://creativecommons.org/licenses/by/3.0/