XC4020XL-09HT176C

XC4020XL-09HT176C Features

Third Generation Field-Programmable Gate Arrays

– On-chip ultra-fast RAM with synchronous write option

– Dual-port RAM option

– Fully PCI compliant

– Abundant flip-flops

– Flexible function generators

– Dedicated high-speed carry-propagation circuit

– Wide edge decoders (four per edge)

– Hierarchy of interconnect lines

– Internal 3-state bus capability

– 8 global low-skew clock or signal distribution network

Flexible Array Architecture

– Programmable logic blocks and I/O blocks

– Programmable interconnects and wide decoders

Sub-micron CMOS Process

– High-speed logic and Interconnect

– Low power consumption

Systems-Oriented Features

– IEEE 1149.1-compatible boundary-scan logic support

– Programmable output slew rate (2 modes)

– Programmable input pull-up or pull-down resistors

– 12-mA sink current per output

– 24-mA sink current per output pair

Configured by Loading Binary File

– Unlimited reprogrammability

– Six programming modes

XACT Development System runs on ’386/’486/

Pentium-type PC, Apollo, Sun-4, and Hewlett-Packard 700 series

– Interfaces to popular design environments like

Viewlogic, Mentor Graphics and OrCAD

– Fully automatic partitioning, placement and routing

– Interactive design editor for design optimization

– 288 macros, 34 hard macros, RAM/ROM compiler

XC4020XL-09HT176C Description

The XC4000E family of Field-Programmable Gate Arrays

(FPGAs) provides the benefits of custom CMOS VLSI, while avoiding the initial cost, time delay, and inherent risk of a conventional masked gate array.

The XC4000E family provides a regular, flexible, pro-grammable architecture of Configurable Logic Blocks (CLBs), interconnected by a powerful hierarchy of versa-tile routing resources, and surrounded by a perimeter of programmable Input/Output Blocks (IOBs).

XC4000E devices have generous routing resources to accommodate the most complex interconnect patterns.

They are customized by loading configuration data into the internal memory cells. The FPGA can either actively read its configuration data out of external serial or byte-parallel PROM (master modes), or the configuration data can be written into the FPGA (slave and peripheral modes).

The XC4000E family is supported by powerful and sophis-ticated software, covering every aspect of design: from schematic entry, to simulation, to automatic block place-ment and routing of interconnects, and finally the creation of the configuration bit stream.

FPGAs are ideal for shortening the design and develop-ment cycle, but they also offer a cost-effective solution for production rates well beyond 1,000 systems per month.

The XC4000E family is a superset of the popular XC4000 family.