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FPGA (Field Programmable Gate Array) – Architecture and Applications

FPGA(FieldProgrammableGateArray) has seen a rapid growth in the recent years. This post will discuss about what is FPGA (Field Programmable Gate Array), its architecture, how it works,its applications, advantages and disadvantages.

What is Field Programmable Gate Array (FPGA)

Field Programmable Gate Arrayis system level Integrated Circuit (IC) that helps to create customized digital logic. They are electrically programmed silicon devices which are pre-fabricated. It incorporates millions oflogic gatesin a single chip.FPGAis a programmable hardware which consists of arrays of Logic Blocks. It can be reconfigured many times as it uses dedicated hardware.

Introduction to FPGA

Fig. 1 – Introduction to FPGA

Field Programmable Gate Array has become a preferred implementation media for digital circuits. The programmable Logic and Interconnection Matrix makes them flexible. FPGA’s provide cost-effective solution and quick to market as compared to ASIC’s.

现场可编程门阵列(FP的配置GA) takes less than a minute and offers Parallel processing i.e. portion of FPGA can be reconfigured while the rest of FPGA is running to implement other functionality. Both the functionality that is configured will execute at the same time.

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It is based on Look Up Tables which can implement any Boolean functions. It consists of programmable SRAM, high-speed input/output pins (I/O), Logic Blocks and Interconnection Matrix. Xilinx in the year 1985 combined the idea ofProgrammable LogicDevices and Gate Arrays to discover FPGA’s.

Image of FPGA Development Board

Fig. 2 – Field Programmable Gate Array (FPGA) Development Board

Architecture of Field Programmable Gate Array (FPGA)

The architecture of Field Programmable Gate Array comprises of three main components. They are:

  • Programmable Logic Blocks (Configurable Logic Blocks)
  • I/O Blocks (Input/output Blocks)
  • Interconnection Matrix

Programmable Logic Blocks车辆(可配置逻辑cks)

Programmable or Configurable Logic Blocks help in implementing Logic functions. This module provides basic logic and storage functionality. They are arranged in a two-dimensional grid and are interconnected by routing wire segments as shown in the Fig. 3.

The density of the logic block depends upon the length and number of wire segments used for Routing. Configurable Logic Block may consist of single Basic Logic Element (BLE) or clusters of BLE which are interconnected. BLE consists of LUT (Look Up Table), Flip-Flop and Multiplexer as shown in the Fig. 3.

Architecture of FPGA

Fig. 3 –Architecture of Field Programmable Gate Array (FPGA)

I/O Blocks(Input/output Blocks)

I/O Blocks consists of interfacing pins which helps in connecting Logic blocks to external components. They are located at the periphery of the grid and also connected to the Interconnection Matrix.

Interconnection Matrix

The function of Routing the signals and providing connections between the Logic Blocks and I/O Blocks is the task of Interconnection Matrix. It consists of wires and switches to establish the connection within FPGA.

How does Field Programmable Gate Array (FPGA) Work

FPGA’s are used as functional blocks in a system which are initially not configured. They are prefabricated and customized according to the application. Configuration is achieved through programming, usingVHDL(VeryHighDefinitionLanguage) or Verilog by the end user. The configuration is done throughSRAMcells,EPROMEEPROM.

FPGA reads its configuration from its memory. Logic function is compiled using a software on a computer. Binary file is synthesized and programmed on to FPGA chip for logic emulation.

SRAMbased FPGA’s are widely used in varied applications and hence let us focus on the working principle of SRAM-FPGA’s. In this type, memory cells are scattered throughout Field Programmable Gate Array. SRAM (also calledStatic Random Access Memory) is used to store the programmed value.

Let us consider Fig.4 which shows schematic representation of Configurable Logic Block. Basically, FPGA’s use LUT’s (Look Up Tables) for creating digital logic. This structure contains LUT’s which are used to map input values to output values. Logic Block has programmable Flip-Flop’s and multi programmable Multiplexers.

Look Up Tables are configured using Bit-stream to implement Boolean function. It has four inputs A, B, C, D and the 16 inputs to the Multiplexers determine theBoolean functionto be implemented based on the entries of the Truth Table.

These 16 binary values are stored in Registers i.e. D Flip-Flop. These Registers are either set to Logic High or Low. The entire circuit behaves like a 16:1 Mux. If input bits ABCD is 0000, then MSB or top-most input of Mux is routed to output ‘Y’. Truth Table is constructed for different values of input bits. For 4 input bits, there are 16 entries and output ‘Y’ is recorded and verified. LUT-4 uses 16 SRAM bits to implement 4 inputs Boolean Function.

Schematic Representation of Configurable Logic Block

Fig. 4 – Schematic Representation of Configurable Logic Block

Similarly, LUT with k inputs (LUT-k) contains2kconfiguration bits and it can implement any k-input Boolean function. Thus, this structure effectively implements arbitrary, complex digital logic.

Let us take an Example of 2 input LUT, that implements the function:

Example of Logic function

a和b是输入。为不同的值e inputs, Truth Table is created. Four entries of the Truth Table are shown in the Fig. 5.

Example of Two Input LUT

Fig. 5 – Schematic Representation of Two Input LUT

Applications of Field Programmable Gate Array (FPGA)

The applications include:

  • FPGA’s are widely used for defense applications like Radar and Sonar.
  • Medical imaging implementation requires Field Programmable Field Array.
  • They are primarily used in Real-time speechrecognition systems.
  • They are also used in Avionic systems as they are economical compared to Microprocessors and Microcontrollers.
  • They are used in Crypto Systems.
  • They are used in ASIC Prototyping.
  • They are used in Automotive infotainment applications.
  • They are extensively used in Life Science applications like Genome Sequencing.
  • FPGA’s are used in Data Analytics applications.
  • They are used in Video Transcoding.

Applications of FPGA

Fig. 6 – Applications of FPGA

Advantages ofField Programmable Gate Array (FPGA)

优势包括:

  • Prototype implementation is fast and reliable.
  • Operation speed is high.
  • Offers reconfiguration and hence they are reusable.
  • FPGA’s offer flexibility in design.
  • Performance is high i.e. larger data can be processed with fewer clock cycles at high frequencies.
  • They are capable of Parallel Processing.
  • FPGA’s are economical.
  • They operate faster than ASIC’s (Application Specific Integrated Circuits).

Disadvantages ofField Programmable Gate Array (FPGA)

The disadvantages include:

  • Programming is complex.
  • Power consumption is high.
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Laxmi Ashrit
Laxmi Ashrit
Laxmi is a B.E (Electronics & Communication) and has work experience in RelQ Software as Test Engineer and HP as Technical support executive. She is an author, editor and partner at Electricalfundablog.
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