![]() This is problematic for applications requiring higher compute performance such as Edge AI where support for low power operation is also required).įPGAs require configuration so the device’s logic circuits and interconnects know what role they should play in the implementation of a specific application. And serial processing can lead to higher power consumption as the ICs use higher speed clocks to keep pace with the processing workload. The lack of programmability can contribute to shortening the lifespan of the system once deployed. Other types of ICs like Microcontrollers (MCU), Microprocessors (MPU), Application Specific Integrated Circuit (ASIC), and Application Specific Standard Product (ASSP) have a fixed function upon deployment and operate sequentially (i.e. This type of processing is better suited for high performance computing applications (such as AI), which allows the FPGA to deliver significantly higher performance using lower clock speeds consuming lower power. Through a “sea of gate” architecture, FPGAs are capable of processing data in a parallel fashion whereby operations are performed at the same time, not sequentially. This inherent flexibility also helps speed time-to-market for FPGA-based designs as the functionality of the FPGA can be developed, or changed, in parallel with the overall system design.Īnother benefit of FPGAs is their parallel processing capability. This re-programmability is possible even after the FPGA is integrated into an application by using downloadable software updates (hence the “field programmable” in “field programmable gate array”). ![]() The primary advantage of FPGAs is their programmable fabric, which allows a designer to rapidly program (and re-program) the device to perform nearly any function. Why use an FPGA instead of other types of ICs? ![]() FPGAs are ideally suited for today’s fastest growing applications, like edge computing, artificial intelligence (AI), system security, 5G, factory automation, and robotics. FPGAs are different than other custom or semi-custom ICs due to their inherent flexibility that allows it to be programmed and re-programmed via software download to adapt to the evolving needs of the larger system in which it is designed into. *By clicking on the "Notify Me of Changes" button, you agree to receive notifications on changes to the document(s) you selected.A Field Programmable Gate Array, or FPGA, is a type of integrated circuit (IC) that enables the development of custom logic for rapid prototyping and final system design. Introducing the Lattice Avant™ Platform: Designed for the Mid-Range These symbols can be used to help with OrCAD schematic designs. xls worksheet with a list of the contents of the OLB. This file contains an OrCAD Capture Schematic Library (OLB file type) for all Lattice products. Lattice OrCAD Capture Schematic Library (OLB) Lattice Avant Platform - Overview Data Sheet PCB Layout Recommendations for BGA Packages Solder Reflow Guide for Surface Mount Devices Lattice Avant High-Speed I/O and External Memory Interface User Guide Lattice Avant sysCLOCK PLL Design and User Guide Lattice Avant Platform - Specifications Data Sheet Please refer to Answer Database FAQ 6539 for detailed instructions. This document would be provided through Technical Support Request after sign-in to the Lattice web site. One 18x18 multiplier fractures into four 8x8 multipliers Click here to be notified as new devices become available.Īvant-AT-E Family Selection Guide FeaturesĠ.5 mm Total I/O (Wide Range, High Performance)Ġ.8 mm Total I/O (Wide Range, High Performance)ġ.0 mm Total I/O (Wide Range, High Performance)ġ. Lattice will introduce additional Avant families to leverage the full capabilities of the platform. ![]() High Performance, Compact, and low power – High logic capacity from 262k to 637k System Logic Cells, smallest 11 x 9 mm package option, and up to 2.5x lower power than competitionįast External Memory Support - LPDDR4/DDR4 at 1866 MbpsĮfficient Edge AI Processing – Up to 7200 INT8 multipliers and 36 Mb embedded memory enable more efficient implementation of AI/ML algorithms The Avant-AT-E family delivers the highest DSP and embedded memory to logic ratio for mid-range FPGAs, enabling intelligence at the edge for applications in automotive, communications, compute, and industrial market segments. This platform has been optimized to deliver the lowest power, smallest form factor, and highest performance FPGA devices in their class. The Lattice Avant™-AT-E family of mid-range FPGAs are the first products built using the 16nm FinFET Avant platform. ![]()
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