8.6  Bibliography

There are few books on FPGA design software. Skahill’s book [1996] covers PLD and FPGA design with Cypress FPGAs and the Cypress Warp design system. Connor has written two articles in EDN describing a complete FPGA design project [1992]. Most of the information on design software is available from the software companies themselves—increasingly in online form. There is still some material that is only available through the BBS or from a file-transfer protocol (ftp) site. There is also a great deal of valuable material available in data books printed between 1990 and 1995, prior to the explosion of the use of the Internet in the late-1990s. I have included pointers to these sources in the following sections.

8.6.1 FPGA Vendors

Actel ( http://www.actel.com ) has a Frequently Asked Questions ( FAQ ) guide that is an indication of the most common problems with FPGA design:

  • Software versions, installation, and security, and not having enough computer memory
  • X11, Motif, and OpenWindows—problems with paths and fonts. Compatibility problems with Windows 95 and NT
  • Including I/O pads in a design using schematic entry and logic synthesis—problems with the commands and the exact syntax to use
  • Using third-party software for schematic entry or logic synthesis and libraries—problems with versions and paths
  • EDIF netlist issues

It seems most of these problems never go away—they just keep resurfacing. If you design a halfgate ASIC, an inverter, start-to-finish, as soon as you get a new set of software, this will alert you to most of the problems you are likely to encounter.

The May 1989 Actel data book contains details of the early antifuse experiments. The Actel April 1990 data book has a chip photo of the Actel 1010 on the cover (from which some useful information may be derived). Reliability reports and article reprints are now included in the data books (see, for example, [Actel, 1996]). There is PowerPoint presentation on FPGAs ( architec.exe ) and the Actel FPGA architecture at its Web site.

The Xilinx data book (see, for example, [Xilinx, 1996]) contains several hundred pages of information on LCA parts. Xilinx produced a separate User Guide and Tutorials book that contains over 600 pages of application notes, guides, and tutorials on designing with FPGAs and Xilinx FPGAs in particular. XCELL is the quarterly Xilinx Newsletter, first published in 1988. It is available online and contains useful tips and pointers to new application notes. There is an extensive set of Xilinx Application Notes at http://www.xilinx.com/apps . A 250 -page guide to using the Synopsys software ( hdl_dg.pdf ) covers many of the problems users experience in using any logic synthesizer for FPGA design.

Xilinx provides design kits for its EPLD FPGAs for third-party software such as the Viewlogic design entry and simulation programs. The interconnect architecture in the Xilinx EPLD FPGA is deterministic and so postlayout timing results are close to prelayout estimates.

AMD, before it sold its stake in Xilinx, published the 1989/1990 Programmable Data Array Book, which was distinct from the Xilinx data book. The AMD data book contains useful information and code for programs to download configuration files to Xilinx FPGAs from a PC that are still useful.

Altera publishes a series of loose-leaf application notes on a variety of topics, some of them are in the data book (see, for example [Altera, 1996]), but some are not. Most of these application notes are available as the AN series of documents at http://www.altera.com/html/literature . This includes guides on using Cadence, Mentor, Viewlogic, and Synopsys software. The 100-page Synopsys guide ( as_sig.pdf ) explains many of the limitations of logic synthesizers for FPGA design and includes the complete VHDL source code for a voice-mail machine as an example.

Atmel has a series of data sheets and application notes for its PLD logic at http://www.atmel.com . Some of the data sheets (for the ATV2500, for example, available as doc156.pdf ) also include examples of the use of CUPL and ABEL. An application note in Atmel’s data book (available as doc168.pdf ) includes the ABEL source code for a video frame grabber and a description of the NTSC video format. Atmel offers a review of its links to third-party software in a section “PLD Software Tools Overview” in its data book (available online as doc150.pdf at http://www.atmel.com/atmel/products ). Atmel uses an IBM-compatible PC-based system based on the Viewlogic software. Schematic entry uses Viewdraw and simulation uses Viewsim. Atmel provides a separate program, a fitter, to optimize a schematic for its FPGA architecture. The output from this software generates an optimized schematic. The place-and-route software then works with this new schematic. Atmel provides an interactive editor similar to the Xilinx design editor that allows the designer to perform placement manually. Atmel also supports PLD design software such as Synario from Data I/O.

The QuickLogic design kit uses the ECS ( Engineering Capture System) developed by the CAD/CAM Group and now part of DATA I/O. Simulation uses X-SIM, a product of Silicon Automation Systems.

Cypress has a low-cost design system (for QuickLogic and its own series of complex PLDs) called Warp that uses VHDL for design entry.

8.6.2  Third-Party Software

There is a bewildering array of software and software companies that make, sell, and develop products for PLD and FPGA design. These are referred to as third-party vendors . In the remainder of this section we shall describe (in alphabetical order) some of the available third-party software. This list changes frequently and for more information you might search the EE sites from the Bibliography in Chapter 1.

Accel ( http://www.edac.org/EDAC/Companies ) produces Tango and P-CAD (which used to belong to Personal CAD Systems) that are a low-cost and popular schematic-entry and PCB layout software for PCs. Currently there are no FPGA vendors that support P-CAD or Tango directly. The missing ingredient is a set of libraries with the appropriate schematic symbols for the logic macros and cells used by the FPGA vendor.

AMD ( http://www.amd.com ) produces the Mach series of PLDs and is also the owner of PALASM. All of the FPGA vendors use the PALASM and PALASM2 languages as interchange formats. Using PALASM is an easy way to incorporate a PLD into an FPGA.

Antares ( http://www.anteresco.com ) is a spin-off from Mentor Corporation formed from Exemplar Logic, a company specializing in synthesis software for PLDs and FPGAs, and Model Technology, who produce a VHDL and Verilog simulator using a common kernel.

Cadence ( http://www.cadence.com ) is one of the largest EDA companies. They offer design kits for PLD and FPGA design with its schematic-entry (Composer) and logic-synthesis (Concept) software. The Cadence Web site has some pictures of ASIC and FPGA design flow in its third-party support area. To find these, search for “FPGA” from the main menu.

Compass Design Automation ( http://www.compass-da.com ) is a spin-off from VLSI Technology that specializes in ASIC design software and cell libraries. As part of its system design software, this vendor includes compilers and libraries for Xilinx, Actel, and Altera FPGAs.

Data I/O ( http://www.data-io.com ) makes the FutureNet DASH schematic-entry program primarily for IBM-compatible PCs. Version 5 also has an EDIF 2 0 0 netlist writer, and an optional program PLDlinx to convert designs to ABEL. Data I/O's ABEL is a very widely used PLD design standard. Most FPGA software allows the merging of ABEL files with netlists from schematic-entry programs. Usually you have to translate ABEL to PALASM first and then merge the PALASM file with any netlists that you created from schematics. ABEL is available on SUN workstations, IBM-compatible PC-DOS, and Macintosh platforms. The Macintosh version is available through Capilano Computing, using its DesignWorks program. Data I/O has extended its ABEL language for use with FPGA design. ABEL-FPGA is a set of software that can accept hardware descriptions in ABEL-HDL. ABEL-HDL is an extension of the ABEL language which is optimized for programmable logic. One of the features of ABEL-HDL is a set of naming extensions, dot extensions, which allow the designer to specify how certain signals will be mapped into an FPGA.

Data I/O also makes a number of programmers. For example, the Unisite PROM programmer can be used to program Actel, Altera MAX, and Xilinx EPLD devices.

Data I/O has recently launched a separate division called Synario Design Automation ( http://www.synario.com ) that has taken over ABEL and produces a new series of PLD and FPGA design software under the Synario banner.

Exemplar, now part of Antares, writes many of the software modules for logic synthesis used by other companies in their FPGA synthesis software. Exemplar provides a software package that allows you to enter hardware descriptions in ABEL, PALASM, CUPL, or Minc formats.

ISDATA produces a system called LOG/iC that can be used for FPGA design. LOG/iC produces JEDEC fusemap files, which can be converted and merged with netlists created with other vendors’ software. An evaluation diskette contains LOG/iC software that programs the Lattice GAL16V8. ISDATA also makes a program called STATE/view for design using state diagrams and flow charts and works with LOG/iC and ABEL. HINT is a program that accepts a subset of VHDL and compiles to the LOG/iC language.

Logical Devices ( http://www.logicaldevices.com ) acquired CUPL, a widely used programming language for PLDs, from Personal CAD Systems in 1987. Most FPGA vendors allow you to use files in CUPL format indirectly. Usually you translate to the PALASM format first in order to incorporate any logic you design with CUPL. Logical Devices also sells EPROM programming hardware. They manufacture programmers for FPGAs.

Mentor Graphics Corporation ( http://www.mentorg.com ) is a large EDA company. Mentor produces schematic-entry and logic-synthesis software, IDEA Station and FPGA Station, that interface to the major FPGA vendors (see also Antares).

Minc’s PLDesigner software allows the entry of PLD designs using a mixture of truth tables, waveforms, Minc's Design Synthesis Language ( DSL), schematic entry, or a netlist (in EDIF format). Another Minc program PGADesigner includes the ability to target FPGAs as well as PLDs. This program is compatible with the OrCAD, P-CAD, and FutureNet DASH schematic-entry programs.

OrCAD ( http://www.orcad.com ) is a popular low-cost PC schematic-entry program supported directly by a number of FPGA vendors.

Simucad ( http://www.simucad.com ) produces PC-SILOS, a low-cost logic-simulation program for PCs machines. Xilinx used to bundle Simucad with FutureNet DASH in its least expensive, entry-level design kit.

Synopsys ( http://www.synopsys.com ) sells logic-synthesis software. There are two main products: the Design Compiler for ASIC design and the FPGA Compiler for FPGA design. FPGA Express is a PC-based FPGA logic synthesizer. There is an extensive on-line help system available for Synopsys customers.

Tanner Research ( http://www.tanner.com ) offers a variety of ASIC design software and a “burning service”; you send them the download files to program the FPGAs and Tanner Research programs the parts and ships them to you. Tanner Research also offers an Actel schematic library for its schematic-entry program S-Edit.

Texas Instruments (TI) and Minc produces mapping software between TI's gate arrays and FPGAs (TI’s relationship with Actel is somewhere between a second-source and a partner). Mapping software allows designers to design for a TI gate array, for example, but prototype in FPGAs. Alternatively you could take an existing FPGA design and map it into a TI gate array. This type of design flow is popular with vendors such as AT&T (Lucent), TI, and Motorola who would like you to prototype with their FPGAs before transferring any high-volume products to their ASICs.

Viewlogic ( http://www.viewlogic.com ) produces the Workview and PRODesigner systems that are sets of ASIC design programs available on a variety of platforms. The Workview software consists of a schematic-entry program Viewdraw; two simulators: Viewsim and Viewfault; a synthesis tool, Viewgen; Viewplace for layout interface; Viewtrace for simulation analysis; and Viewwave for graphical display. There is also a package, Viewbase, that is a set of software routines enabling programmers to access Viewlogic's database in order to create EDIF, VHDL, and CFI ( CAD Framework Initiative) interfaces. Most of the FPGA vendors have a means to incorporate Viewlogic’s schematic netlists using Viewlogic’s WIR netlist format. Viewlogic provides a number of applications notes (TECHniques) and includes a list of bug fixes, software limitations, and workarounds online.

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