You use technology that needs to be strong and flexible. The ep20k600ebc652-1x fpga has 24,320 logic cells and 488 I/O pins. This makes it a good pick for hard designs. It also has 311,296 RAM bits. The supply voltage can be from 1.71V to 1.89V. It can have up to 1,537,000 gates. These things help you make systems that work well and last long. If you know about each part of this fpga, you can make better choices for your next project.
| Product Attribute | Attribute Value |
|---|---|
| Number of Logic Elements/Cells | 24,320 |
| Number of I/O | 488 |
| Total RAM Bits | 311,296 |
| Voltage - Supply | 1.71V ~ 1.89V |
| Number of Gates | 1,537,000 |
Key Takeaways
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The EP20K600EBC652-1X FPGA has 24,320 logic cells. It also has 488 I/O pins. This makes it good for hard digital designs.
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This FPGA works with voltages from 1.71V to 1.89V. It can run at clock speeds up to 500 MHz. This helps it work well and stay reliable.
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The FPGA has 311,296 RAM bits. This lets it process and store data quickly. It helps the system work better.
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The 652-ball BGA package saves space. It also helps control heat. This makes it good for small devices.
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Think about what your project needs before you pick an FPGA. This helps you get the best performance and flexibility.
ep20k600ebc652-1x fpga overview
fpga basics
You use an fpga to make digital circuits you can change later. An fpga lets you design and test hardware with programming. You do not need a new chip for every idea. You use programming to set up the logic inside the chip. This helps students and engineers learn about digital systems. You can make custom circuits for math, memory, or special tasks like image processing.
apex 20k series
The ep20k600ebc652-1x fpga is part of the APEX 20K series from intel. This fpga family uses MultiCore architecture. You get both LUT logic and product-term logic in one chip. The table below shows how the APEX 20K series compares to other fpga families:
| Feature | APEX 20K Series | Other FPGA Families |
|---|---|---|
| Architecture | MultiCore with LUT and product-term logic | Often single architecture type |
| Memory Structure | Enhanced memory structure | Standard memory configurations |
| Performance | Optimized for data-path, register, DSP designs | General performance |
| Complex Path Support | Supports complex combinatorial paths | Limited support |
| Application Suitability | Great for system-on-a-programmable-chip designs | May not support all applications |
You get better memory and faster data paths. You also get more help for complex designs. Intel made this series for people who need high performance and flexibility. You use programming to make the chip work for many jobs.
device variants
There are several device variants in the APEX 20K series. The ep20k600ebc652-1x fpga is one of the biggest. It has more logic cells and I/O pins than smaller models. You pick a variant based on memory or pin needs. Intel gives you choices to match the fpga to your project. You use programming to set up each variant for your needs. The ep20k600ebc652-1x fpga is good for embedded systems, signal processing, and custom hardware projects.
Tip: When you pick a device variant, think about your programming needs and how much logic or memory your design will use.
specifications
logic cells and memory
You need to know the technical specifications of the ep20k600ebc652-1x fpga before you start your design. This fpga gives you a large number of logic cells and embedded memory blocks. You can use these resources to build complex digital systems. The logic cells help you create custom circuits. The memory blocks store data for fast access. You can process data quickly and keep your system flexible.
Here is a table that shows the main data for logic cells and memory:
| Number of Logic Elements/Cells | 24,320 |
|---|---|
| Total RAM Bits | 311,296 |
You can compare these numbers to other devices. Many similar fpgas have fewer logic cells and less memory. This means you can handle more data and bigger designs with this fpga. You get more space for your data and more power for your logic.
Note: More logic cells and memory blocks mean you can run more data operations at the same time. This improves performance and lets you build advanced systems.
io pins and package
You must check the technical specifications for I/O pins and the package type. The ep20k600ebc652-1x fpga has 488 I/O pins. You can connect many data signals to your board. These pins help you move data in and out of your system. You can link sensors, displays, and other devices with ease.
The package uses a 652-ball BGA (Ball Grid Array). This package type gives you strong connections and saves space on your board. You can fit the fpga into tight spaces and keep your design neat. The BGA package also helps with heat management and stable data transfer.
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488 I/O pins for many data connections
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652-ball BGA package for compact design
You can use these specifications to plan your board layout. You can move data between your fpga and other parts without problems.
speed and voltage
You need to look at the speed and voltage technical specifications to understand how your system will perform. The ep20k600ebc652-1x fpga can run at clock frequencies up to 500 MHz. This high speed lets you process data very fast. You can build systems that need quick data handling and real-time performance.
The voltage range is from 1.71V to 1.89V. This range keeps your fpga stable and safe. You can trust your data to move without errors. The right voltage also helps your system last longer.
Here is a table that shows the speed and voltage data:
| Parameter | Value |
|---|---|
| Voltage Range | 1.71V to 1.89V |
| Clock Frequency | Up to 500 MHz |
The next table shows how these specifications affect performance:
| Parameter | Impact on Performance |
|---|---|
| Voltage Range | Ensures stable operation |
| Clock Frequency | Allows high-speed processing |
You can use these data points to match your design needs. Fast clock speed means better performance for data-heavy tasks. Stable voltage keeps your data safe and your system reliable.
Tip: Always check the technical specifications for speed and voltage before you start your design. This helps you avoid data errors and keeps your performance high.
features and pinout
key features
The EP20K600EBC652-1X fpga has many helpful features. These features let you build digital systems that are strong and flexible. You can use logic elements to make your own circuits. The memory inside the chip helps you store and use data fast. Logic array blocks help you design and change digital parts easily.
Here is a table that lists the main features:
| Feature | Description |
|---|---|
| Total RAM Bits | 311,296 total RAM bits for managing temporary data |
| Logic Array Blocks | 2,432 Logic Array Blocks for creating digital functions |
| Logic Elements | 24,320 logic elements for building detailed circuits |
You can look at the chart below to compare these features:
These features help you do hard jobs. You can work with data, do math, and control signals easily. The fpga is good for projects that need lots of features and speed.
Tip: Try using the logic array blocks and memory to make your design faster and more dependable.
pinout
You need to know about the pinout to connect your fpga to other things. The EP20K600EBC652-1X fpga has 488 I/O pins. You can use these pins to send and get signals from sensors, screens, and other devices. Having many pins gives you lots of ways to connect things.
The fpga uses a 652-ball BGA package. This package saves space and helps keep the chip cool. You can fit the fpga in small places and keep your board tidy. The BGA package also makes your connections strong and steady.
Here is a short list of pinout features:
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488 I/O pins for lots of connections
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652-ball BGA package for a small and strong design
You can use these features to plan how your board will look. You get more choices and your project will work well.
Note: Always check the pinout before you start wiring your board. This helps you not make mistakes and keeps your system working right.
architecture
internal structure
The EP20K600EBC652-1X FPGA has a smart design. Logic blocks inside the chip help process data. Memory blocks keep information ready for quick use. Input-output elements are on the edges to connect other devices. Look-up tables (LUTs) help change data fast. Product-term logic helps with special control jobs. Clock management makes sure everything works on time. FastTrack interconnects move signals quickly between parts.
Here is what you find inside the FPGA:
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Logic blocks help with data work
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Memory blocks store information
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Input-output elements connect signals
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Look-up tables (LUTs) change data fast
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Product-term logic helps control tasks
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Clock management keeps timing right
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FastTrack interconnects move signals fast
Local interconnects and global signals work together. Many input paths go to logic blocks. These blocks make outputs like SYNCLOAD and LABCLK. This setup gives good timing and control. You can trust your design to work well. The architecture helps keep everything in sync.
Tip: When you plan your project, think about how each part helps your system work smoothly.
block diagram
You can imagine the EP20K600EBC652-1X FPGA by looking at a block diagram. Logic blocks are in the center. Memory blocks are close to the logic blocks. Input-output elements are around the edges. Interconnects link all the parts together. Clock management is near the middle to control timing.
Here is a simple table to show the layout:
| Component | Location in FPGA | Main Function |
|---|---|---|
| Logic Blocks | Center | Data processing |
| Memory Blocks | Near logic blocks | Information storage |
| I/O Elements | Around edges | Signal connection |
| Interconnects | Throughout | Signal routing |
| Clock Management | Central area | Timing control |
You use this block diagram to plan how signals move. The architecture helps each part work together. You get a system that is fast, reliable, and easy to control.
applications and comparison
typical applications
You can use the ep20k600ebc652-1x fpga for many things. This device helps you make systems for factories and communication. It is good for signal processing jobs. You often see it in embedded systems. These systems need to be strong and easy to change. You can build digital systems for pictures, data, and machines. Many engineers use this fpga in medical tools and robots. It is also used in cars and test machines. You can find it in network equipment too. The many I/O pins let you connect lots of sensors and devices. You get fast data work and your system runs well.
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Industrial control systems
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Communication systems
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Signal processing systems
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Embedded systems for automation
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Medical devices
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Robotics and automotive systems
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Test and measurement equipment
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Network infrastructure
Tip: Pick this fpga if you need high speed and lots of connections.
pros and cons
You should know the good and bad sides before you choose the ep20k600ebc652-1x fpga. The table below shows the main pros and cons:
| Advantages | Disadvantages |
|---|---|
| High-density FPGA with large gate count for complex embedded designs | Obsolete and no longer in active production, limiting long-term availability |
| Flexible architecture that supports many different applications | Uses older technology, which leads to higher power use compared to newer devices |
| Strong I/O support with 488 pins for system-level connections | Restricted operating temperature range from 0°C to 85°C |
| On-chip RAM that helps with fast data handling and processing | Development tools may feel outdated compared to Intel’s modern FPGA platforms |
| Works with Intel’s design tools for easier development | Large 652-ball BGA package that requires careful PCB design and assembly |
| Reliable device family with proven use in industrial and communication systems | N/A |
You get strong performance and many ways to design your system. But you may have problems with power use and support in the future. You need to think about these things when you plan your system.
alternative fpgas
You might want to look at other fpgas if you need newer tech or longer support. Intel has newer families like Cyclone and Stratix. These chips give you better speed and use less power. They also have more features for hard jobs. Other companies like Xilinx and Lattice make fpgas too. These choices help you build new digital systems with better tools. Some work in hotter or colder places. You should compare what each chip can do before you pick one.
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Intel Cyclone series for low power and cost
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Intel Stratix series for high-end performance
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Xilinx Spartan and Virtex series for advanced processing
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Lattice fpgas for small systems and low power
Note: Always match your system needs with the right fpga. This helps you get the best speed and trust your system.
You learned that the EP20K600EBC652-1X FPGA from intel is good for hard digital projects. Here are the main things you should know:
| Specification | Detail |
|---|---|
| Logic Array Blocks | 2,432 |
| Logic Elements | 24,320 |
| Embedded RAM | 311,296 bits |
| I/O Pins | 488 |
| System Gate Count | 1,537,000 |
| Voltage | 1.71V–1.89V |
| Temperature | 0°C–85°C |
| Package Type | 652-BGA |
These things help you make systems that are strong and easy to change. If you want more info, look at the EP20K600E Family PDF Datasheet. You can also ask suppliers for help or compare this chip with others for your project.
Written by Jack Elliott from AIChipLink.
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