ISPGDX160VA7Q208-9I ApplicationField
-5G Technology
-Wireless Technology
-Internet of Things
-Medical Equipment
-Cloud Computing
-Consumer Electronics
-Industrial Control
-Artificial Intelligence
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ISPGDX160VA7Q208-9I FAQ Chips
Q: What should I do if I did not receive the technical support for ISPGDX160VA7Q2089I in time?
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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.
Q: How to obtain ISPGDX160VA7Q208-9I technical support documents?
A: Enter the “ISPGDX160VA7Q208-9I” keyword in the search box of the website, or find these through the Download Channel or FPGA Forum .
Q: Does the price of ISPGDX160VA7Q208-9I devices fluctuate frequently?
A: The RAYPCB search engine monitors the ISPGDX160VA7Q208-9I inventory quantity and price of global electronic component suppliers in real time, and regularly records historical price data. You can view the historical price trends of electronic components to provide a basis for your purchasing decisions.
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Q: Where can I purchase Lattice ispGDX160VA 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.
ICs ISPGDX160VA7Q208-9I Features
• IN-SYSTEM PROGRAMMABLE GENERIC DIGITAL CROSSPOINT FAMILY
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Xilinx ISPGDX160VA7Q208-9I 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.
ISPGDX160VA7Q208-9I Tags integrated circuit
1. ispGDX 160V/VA ispGDX160VA
2. Lattice ispGDX 160V/VA development board
3. ispGDX160VA development board
4. ispGDX 160V/VA starter kit
5. Lattice ispGDX160VA
6. ispGDX160VA evaluation board
7. ispGDX 160V/VA evaluation kit
8. ispGDX160VA reference design
9. ispGDX 160V/VA starter kit
Xilinx ISPGDX160VA7Q208-9I TechnicalAttributes