ISPGDX80VA-7T100-9I -Medical Equipment -Cloud Computing

ISPGDX80VA-7T100-9I ApplicationField

-Artificial Intelligence
-Wireless Technology
-Consumer Electronics
-Industrial Control
-5G Technology
-Cloud Computing
-Internet of Things
-Medical Equipment

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ISPGDX80VA-7T100-9I FAQ Chips 

Q: Does the price of ISPGDX80VA-7T100-9I devices fluctuate frequently?
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Q: How to obtain ISPGDX80VA-7T100-9I technical support documents?
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Q: What should I do if I did not receive the technical support for ISPGDX80VA7T1009I in time?
A: Depending on the time difference between your location and our location, it may take several hours for us to reply, please be patient, our FPGA technical engineer will help you with the ISPGDX80VA-7T100-9I pinout information, replacement, datasheet in pdf, programming tools, starter kit, etc.

Q: Where can I purchase Lattice ispGDX80VA Development Boards, Evaluation Boards, or ispGDX 160V/VA Starter Kit? also provide technical information?
A: RAYPCB does not provide development board purchase services for the time being, but customers often consult about ZedBoard, Basys 3 board, TinyFPGA BX, Nexys4-DDR, Terasic DE10-Nano, Digilent Arty S7, etc. If you need relevant technical information, you can submit feedback information, our technicians will contact you soon.

Q: How can I obtain software development tools related to the Lattice FPGA platform?
A: Lattice’s development environment uses Diamone. These recommendations are all reference opinions. The specific choice depends on personal habits and functional requirements to specifically select a more suitable match. You can search and download through the FPGA resource channel.

ICs ISPGDX80VA-7T100-9I Features

• IN-SYSTEM PROGRAMMABLE GENERIC DIGITAL CROSSPOINT FAMILY

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Xilinx ISPGDX80VA-7T100-9I Overview

The ispGDXV/VA architecture provides a family of fast, flexible programmable
devices to address a variety of system-level digital signal routing and
interface requirements including:

• Wide Data and Address Bus Multiplexing (e.g. 16:1 High-Speed Bus MUX)


Programmable Control Signal Routing (e.g. Interrupts, DMAREQs, etc.)


Board-Level PCB Signal Routing for Prototyping or Programmable Bus
Interfaces

The devices feature fast operation, with input-to-output signal delays (Tpd)
of 3.5ns and clock-to-output delays of 3.5ns.

The architecture of the devices
consists of a series of programmable I/O cells interconnected by a Global
Routing Pool (GRP). All I/O pin inputs enter the GRP directly or are registered
or latched so they can be routed to the required I/O outputs. I/O pin inputs are
defined as four sets (A,B,C,D) which have access to the four MUX inputs found in each I/O cell. Each output has individual, programmable I/O
tri-state control (OE), output latch clock (CLK), clock enable (CLKEN), and two
multiplexer control (MUX0 and MUX1) inputs. Polarity for these signals is
programmable for each I/O cell. The MUX0 and MUX1 inputs control a fast 4:1 MUX,
allowing dynamic selection of up to four signal sources for a given output. A
wider 16:1 MUX can be implemented with the MUX expander feature of each I/O and
a propagation delay increase of 2.0ns. OE, CLK, CLKEN, and MUX0 and MUX1 inputs
can be driven directly from selected sets of I/O pins. Optional dedicated clock
input pins give minimum clockto-output delays. CLK and CLKEN share the same set
of I/O pins. CLKEN disables the register clock when CLKEN = 0.

ISPGDX80VA-7T100-9I Tags integrated circuit

1. ISPGDX80VA-7T100-9I Datasheet PDF
2. ispGDX 160V/VA starter kit
3. Lattice ispGDX80VA
4. ispGDX 160V/VA evaluation kit
5. ispGDX80VA reference design
6. Lattice ispGDX 160V/VA development board
7. ispGDX 160V/VA ispGDX80VA
8. ispGDX80VA evaluation board
9. ispGDX 160V/VA evaluation kit

Xilinx ISPGDX80VA-7T100-9I TechnicalAttributes

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