FROM THE EDITOR
This week our new contributing editor Amy Malagamba
takes a look at the ins and outs of high-speed board design tools in
our "Pedal to the Metals" feature. A bewildering array of options
awaits the hapless team trying to select a board design methodology
that can handle today's high-complexity FPGAs. We'll help you sort
out the choices.
Our second new article from Lalitha Oruganti
at Altera talks about signal integrity requirements for high-speed
FPGAs. With all the single-ended and differential I/O standards
supported by today's devices, signal integrity is becoming a growing
concern. You'll want to consider the whole system from FPGA to
package to board in order to get the most performance and
reliability from your design.
Thanks for
reading! If there's anything we can do to make our publications more
useful to you, please let us know at: comments@fpgajournal.com
Kevin Morris –
Editor
FPGA and Programmable Logic
Journal |
LATEST NEWS
May 17, 2005
Actel
Provides Smaller, Lighter FPGA Packaging for Military and Aerospace
Markets
Engineers
and Students Now Can Program DSPs with National Instruments LabVIEW;
NI LabVIEW DSP Module Offers Graphical Programming Tools for Texas
Instruments DSPs
EVE
Extends ZeBu Platform Capabilities, Adds Transaction-Level Interface
to Native Testbench in Synopsys' VCS Comprehensive RTL Verification
Solution, Support for SystemVerilog Assertions and Design Clustering
of Up to 64 FPGAs
Atmel
and Tower Semiconductor Announce Joint CMOS Image Sensor Technology
and Product Development Agreement; Tower's 0.18-Micron Technology
Will Be Used in Atmel's Next-Generation CMOS Image Sensor
Products
Tundra
Tsi568A(TM) Serial RapidIO(R) Switch Now Sampling - Proven
Interoperability With Wide Range of RapidIO Systems, Boards, and
Products
May 16, 2005
Lattice
ispLEVER-Starter Design Tools Now Support All LatticeEC FPGA
Devices
Celoxica
Multi-Purpose FPGA Board Delivers Breakthrough Price And
Performance
NexFlash,
Lattice Announce spiFlash Memory Support for Lattice FPGA Devices;
spiFlash Serial Flash Memories Provide Efficient Configuration
Solution for LatticeECP, LatticeEC FPGA Designs
NexFlash
Serial Flash Memories Qualified for Xilinx Spartan-3E FPGA Family;
spiFlash Serial Flash Memories Provide a Pin-, Space- and
Cost-Efficient Configuration Alternative for FPGA Designs
SBS
Technologies Announces New Conduction-Cooled PCI Mezzanine Card with
FPGA Configurable Multiple I/O Functions
National
Semiconductor Introduces Industry's First Analog Voltage Monitor
With JTAG Interface
Altera
Solutions Chosen for Texas Instruments DLP TV Products
New
Xilinx MicroBlaze Soft Processor Increases Clock Frequency by 25
Percent
New
Texas Instruments TMS320C6455 DSP Offers Incredible System
Performance Gain Due to 2x-12x Boosts in Performance and I/O
Bandwidth
May 11, 2005
Altium
Unifies Electronic Product Development Under Altium Designer
FishTail
Joins Mentor Graphics’ OpenDoor Program
and the ModelSim Value Added Partnership
Program |
|
Pedal to the Metals
A
Crash Course in High-Speed Design
You're cruising home from work one day, and your cell
phone rings. You answer (hands free of course...). It's your boss. New
plan. He’s saying something about routing, but you can’t quite make it
out. Your head is spinning. Why didn't you pay the extra thousand bucks
for that GPS system? Your boss is still talking, and you're trying to make
sense of what he's saying, but it's all rushing together, plus you've
reached that "Can you hear me now" section of your commute. You catch a
word here and there, but it's gibberish. Things like, "... Microvia."
Sounds like a small island in the South Pacific, but OK. Then something
about constrained nets. Is this some kind of code speak for a speed trap
ahead? Well, sort of. In reality, you’ve just been assigned the task of
designing your first FPGA-centric high-speed board.
Times have changed since ASICs ruled the board. With an
FPGA in the middle of the system, board design has become part of the
"on-demand" culture. Pinouts aren’t nailed down months in advance the way
they used to be. They can change right up until the last minute. You could
be dealing with more than 20 layers of metal. You’ve got high-speed serial
signals to deal with. You’ll need routing constraints for the majority of
these. And let’s not forget the old stand-bys, the bread-and-butter
challenges of high-speed design: signal integrity, jitter, and crosstalk.
[more]
Selecting the FPGA that Meets Your
Signal Integrity Requirements
by Lalitha Oruganti, Sr.
Product Marketing Engineer, FPGA Products, Altera Corporation
In light of its critical nature, signal
integrity needs to be a key criterion during the planning and design
phases of high-speed systems. Ignoring signal integrity can lead to poor
reliability, degraded performance, field failures and delayed product
releases—all of which can trigger lost opportunities and revenues.
Today’s high-end FPGAs support a variety of single-ended
and differential I/O standards, with options to control drive-strength,
slew-rate and on-chip termination. If not used correctly, this flexibility
offered by FPGAs can make it difficult to manage signal integrity.
Selecting the right FPGA that meets specific signal integrity requirements
is critical for individual design success. Evaluating FPGAs requires a
thorough understanding of the design methodology and features available in
the FPGA to manage signal integrity, models and characterization data.
This article will outline the specific information required of FPGA
vendors before selecting the right device for a specific high-speed
design. [more]
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