Agilent Technologies 8000 Series Uživatelský manuál stáhnout pdf

Agilent Technologies Infiniium

MSO8000 and MSO9000 Series

N5397A FPGA Dynamic Probe for Xilinx

Data Sheet

The challenge

You rely on the insight a MSO

(mixed-signal oscilloscope)

provides to understand the

behavior of your FPGA in

the context of the surrounding

system. Design engineers

typically take advantage of the

programmability of the FPGA to

route internal nodes to a small

number of physical pins for

debugging. While this approach

is very useful, it has significant

limitations.

• Since pins on the FPGA

are typically an expensive

resource, there are a relatively

small number available for

debug. This limits internal

visibility (i.e. one pin is

required for each internal

signal to be probed).

• When you need to access

different internal signals,

you must change your design

to route these signals to the

available pins. This can be time

consuming and can affect the

timing of your FPGA design.

• Finally, the process required

to map the signal names from

your FPGA design to the

MSO digital channel labels is

manual and tedious.

Figure 1. FPGA dynamic probe for Xilinx used in conjunction with an Agilent Infiniium

MSO provides an effective solution for simple through complex debugging of systems

incorporating Xilinx FPGAs.

When new signals are routed

out, you need to manually

update these signal names

on the MSO, which takes

additional time and is a

potential source of confusing

errors.

1 2 3 4 5 6 7 8 9 10

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Strany 1 - MSO8000 and MSO9000 Series

Agilent Technologies Infiniium MSO8000 and MSO9000 Series N5397A FPGA Dynamic Probe for XilinxData SheetThe challengeYou rely on the insight a MSO (mi

Strany 2 - Change signal bank

Remove all doubtOur repair and calibration services will get your equipment back to you, performing like new, when promised. You will get full value o

Strany 3

A Better Way – Collaborative development between Agilent and Xilinx have produced a faster and more effective way to use your logic analyzer to debug

Strany 4 - (continued)

Design step 1: Create the ATC2 core Use Xilinx Core Inserter or EDK to select your ATC2 parameters and to create a debug core that best matches your d

Strany 5

A quick tour of the application (continued)Activate FPGA dynamic probe for Xilinx The FPGA dynamic probe application allows you to control the ATC2 co

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A quick tour of the application (continued)Measurement setup step 2: Map FPGA pinsQuickly specify how the FPGA pins (the signal outputs of ATC2) are c

Strany 7

A quick tour of the application (continued)Setup complete: Make measurementsQuickly change which signal bank is routed to the MSO. A single mouse clic

Strany 8 - Ordering information

7Agilent N5397A specifications and characteristicsSupported oscilloscopesStandalone oscilloscopes Infiniium MSOs: All Infiniium 8000 and 9000 Series

Strany 9

Ordering informationOrdering options for the Agilent N5397A FPGA dynamic probe for XilinxOption 001 • Entitlement certificate for perpetual node-loc

Strany 10 - Remove all doubt

9Agilent Technologies OscilloscopesMultiple form factors from 20 MHz to >90 GHz | Industry leading specs | Powerful applications

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Agilent Technologies 8000 Series Uživatelský manuál

Procházejte online nebo si stáhněte Uživatelský manuál pro Multimetry Agilent Technologies 8000 Series. Agilent Technologies Infiniium MSO8000 and MSO9000 Series Uživatelská příručka

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