The Cyclone® IV FPGA family extends the Intel Cyclone FPGA series leadership in providing the market's lowest cost, lowest power FPGAs, now with a transceiver variant. Ideal for high-volume, cost-sensitive applications, Cyclone IV FPGAs enable you to meet increasing bandwidth requirements while lowering costs.
Lower Your System Costs
All Cyclone IV FPGAs require only two power supplies for operation, simplifying your power distribution network and saving you board costs, board space, and design time. For Cyclone IV GX FPGAs, the cost savings are further increased. With the introduction of integrated transceivers on the leading low-power Cyclone® IV FPGA architecture, you get cost savings through simplified board design and integration. Furthermore, the flexibility of the transceiver clocking architecture allows you to implement multiple protocols while fully utilizing all available transceiver resources. The integration and flexibility of the Cyclone IV GX FPGA enables you to design in a smaller, lower cost device, lowering your total system costs.
Reduce Power Consumption
Built on an optimized 60-nm low-power process, Cyclone® IV E FPGAs extend the low-power leadership of previous-generation Cyclone III FPGAs. The latest generation devices reduce core voltage, which lowers total power by 25 percent compared to the predecessor. With Cyclone® IV GX transceiver FPGAs, you can build a PCI Express* to Gigabit Ethernet bridge for less than 1.5 watts.
Intel's Cyclone® IV FPGAs are optimized for the lowest power consumption, helping you better manage thermal requirements. As a result, you can reduce or eliminate system cooling costs and also extend battery life for handheld applications.
Cyclone® IV FPGA Power Consumption
The Cyclone® IV FPGA family demonstrates Intel’s leadership in offering power-efficient FPGAs. With enhanced architecture and silicon, advanced semiconductor process technology, and power management tools, power consumption for Cyclone IV FPGAs has been reduced by up to 25 percent compared to Cyclone® III FPGAs. The result is the lowest power consumption of any comparable FPGA.
The following figure shows the static power consumption of Cyclone® IV E devices at 85°C junction temperature. The smallest Cyclone® IV EP4CE6 device consumes as little as 38 mW at 85°C and the largest Cyclone IV EP4CE115 device consumes as little as 163 mW static power at 85°C.
Cyclone IV E Typical Static Power Consumption
Benefits of Low Power Consumption
Reducing the power consumption of programmable logic devices carries far-reaching benefits for many applications. However, lower power consumption is only one aspect of system power. The following figure shows that Cyclone® IV GX FPGAs lower FPGA power consumption by an average of 30 percent.
System Power Savings using Cyclone IV GX FPGAs
The combination of increased integration and a low-power Cyclone IV GX FPGA results in significant system-level benefits for a variety of applications:
- Portable or handheld battery-powered devices.
- Space-constrained and other thermally challenging environments.
- Price-sensitive applications where cooling systems are not cost effective.
For more information on lowering your total cost of ownership and achieving higher reliability in your designs, refer to the Decrease Total System Costs with Industry's Lowest Cost, Lowest Power FPGAs White Paper (PDF).
Silicon and Architectural Optimizations
Static power can increase dramatically with the sub-micron semiconductor process if no power-reduction strategies are employed. Static power consumption rises at submicron process technologies largely because of increases in leakage current subthreshold leakage.
Intel has taken significant steps to reduce static power in Cyclone IV FPGAs. By employing a low-power (LP) process technology traditionally used by major semiconductor manufacturers for handset components, Intel has minimized the leakage current for low static power. The smaller geometries made possible by this advanced process, combined with architectural optimizations, enable Cyclone IV FPGAs to keep dynamic and static power consumption to a minimum. The process and architectural enhancements that Intel employs with Cyclone IV FPGAs includes the use of low-k dielectrics, variable channel lengths and oxide thicknesses, and multiple transistor threshold voltages.
Accurate Power Estimation and Analysis
Intel supports power estimation and analysis, from design concept through implementation, with the most accurate and complete power management design tools. Intel is also the only programmable logic vendor that offers up to 125°C and worst-case silicon power estimates for the low-cost FPGA families throughout its tool suite. Intel offers the following power estimation and analysis resources:
- Cyclone® IV early power estimator.
- Intel® Quartus® Prime power analysis and optimization technology.
- Power Management Resource Center.
Use the early power estimator (EPE) during the design concept phase and the Power Analyzer during design implementation. The EPE is a spreadsheet-based analysis tool that enables early power scoping based on device and package selection, operating conditions, and device utilization.
The Power Analyzer is a far more detailed power analysis tool that uses actual design placement and routing and logic configuration. The tool can use simulated waveforms to very accurately estimate dynamic power. The power analyzer, in aggregate, usually provides ± 10 percent accuracy when used with accurate design information. The Intel Quartus Prime power models closely correlate to actual silicon measurements.
Intel uses more than 5,000 different test configurations to measure the power of individual components within an Intel® Cyclone® series FPGA. Each configuration is focused on measuring a single circuit component of the FPGA in a specific configuration.
Intel Quartus Prime Power Optimization
Design implementation details can improve performance, minimize area, and reduce power. Historically, the performance and area trade-offs have been automated within the register transfer level (RTL) through the place-and-route design flow.
Intel is a leader in bringing power optimization into the design flow. Intel® Quartus® Prime software power optimization tools automatically use the Cyclone® IV FPGA architecture capabilities to reduce up to 25 percent lower dynamic power consumption compared to Cyclone III FPGAs.
The Intel Quartus Prime development software has many automatic power optimizations that are transparent to the designer but provide optimal utilization of the FPGA architecture to minimize power. For example, with Intel Quartus Prime software, you can:
- Transform major functional blocks.
- Map user RAMs so they use less power.
- Restructure logic to reduce dynamic power.
- Correctly select logic inputs to minimize capacitance on high-toggling nets.
- Reduce area and wiring demand for core logic to minimize dynamic power in routing.
- Modify placement to reduce clocking power.
Cyclone® IV FPGAs continue the Intel Cyclone series tradition of offering an unprecedented combination of low power, high functionality, and low cost. Cyclone IV GX FPGAs feature integrated transceivers at up to 3.125 Gbps.
The logic and routing core fabric is surrounded by I/O elements (IOEs) and phase-locked loops (PLLs). Both GX and E devices have four general-purpose PLLs located at each corner of the die. The Cyclone® IV GX FPGA has I/O elements at the top, bottom, and right sides of the die, while the Cyclone IV E FPGA has I/Os on all four sides of the die. The left side of the Cyclone IV GX FPGA die has up to eight transceivers in two quads consisting of four transceivers per quad. The top and bottom of each transceiver quad features a multi-purpose PLL (MPLL) that the transceiver or the FPGA fabric can use.
Cyclone IV GX FPGAs are built with Intel's proven GX transceiver technology, known for excellent jitter performance and superior signal integrity. The PCI-SIG-compliant transceiver variant supports a wide variety of serial protocols. Cyclone IV GX FPGAs also feature the only hard intellectual property (IP) block for PCI Express x1, x2, and x4 in rootport and endpoint configurations.
System Board Designers
Get Started on Your Board Today
- Pin-Out Files
- Pin Connection Guidelines
- Data sheet and handbook
- Gerber files for selected FineLine BGA (1.0-mm ball pitch) packages
- IBIS models for simulation
- SPICE models for simulation
- BSDL files for testing
- PCB symbols and footprint libraries for
- Cadence and Allegro
- Mentor Graphics
Complete Design Resources
For a smooth and successful design flow that quickly turn your ideas into revenue, Intel provides a complete Cyclone® IV FPGA design environment including:
- Intel® Quartus® Prime development software
- Library of proven IP
- Nios® II, the world's most versatile embedded processor
Multiple design examples and reference designs are available for Cyclone® IV FPGA kits.
Development Kits and Boards
Accelerate your design process by utilizing an ecosystem of development kits and reference designs based on low-cost, low-power Cyclone® IV devices. These FPGA-based solutions contain everything you need to create and implement a design tailored for your end application.
Intel developed the specification for the high-speed mezzanine card (HSMC), which is based on the Samtec mechanical connector to define and standardize the interface between optional daughtercards and host boards (see Figure 1). This specification outlines both the electrical and mechanical properties of the interface between the daughtercard and host. You can also create your own HSMC-based prototype daughtercards.
Figure 1. Host and Daughtercard Interconnection via HSMC
|Cyclone® IV GX Transceiver Starter Kit||Development kit||Intel||Cyclone IV GX FPGA (EP4CGX150)||$395|
|Cyclone® IV GX Development Kit||Development kit||Intel||Cyclone IV GX FPGA (EP4CGX150)||$1,295|
|Video Analytics Evaluation Kit||Development kit||Intel||Cyclone IV GX FPGA (EP4CGX150)||Contact vendor|
|BeMicro SDK||Development kit||Arrow||Cyclone IV E FPGA (EP4CE22)||$79|
|BeInMotion (motorized based for BeMicro SDK)||Development kit||Arrow||Cyclone IV E FPGA (EP4CE22)||Contact vendor|
|FPGA Starter Development Kit||Development kit||EBV||Cyclone IV E FPGA (EP4CE10)||Contact vendor|
|PCI Express* Starter Kit||Development kit||EBV||Cyclone IV GX FPGA (EP4CGX15)||Contact vendor|
|Mercury Code (industrial networking)||Development kit||EBV||Cyclone IV E FPGA (EP4CE55)||Contact vendor|
|FalconEye (three-level inverter)||Development kit||EBV||Cyclone IV E FPGA (EP4CE55)||Contact vendor|
|DE0-Nano Development Board||Development kit||Terasic||Cyclone IV E FPGA (EP4CE22)||$79|
|DE2-115 Development Board||Development kit||Terasic||Cyclone IV E FPGA (EP4CE115)||$595|
|Industrial Networking Kit||Development kit||Terasic||Cyclone IV E FPGA (EP4CE115)||$795|
|Video and Embedded Evaluation Kit||Development kit||Terasic||Cyclone IV E FPGA (EP4CE115)||$795|
To learn more about designing with Cyclone® IV FPGAs, here are some additional resources to keep you on the path towards becoming a Cyclone IV FPGA expert:
- Watch Intel® Cyclone® series webcasts
- Take online training courses:
- Explore a wide variety of end-market solutions using other Intel® products.
Jump Start Your Designs with IP—Try Before You Buy
Intel and its IP partners provide intellectual property (IP) cores and reference designs you can use to accelerate your Cyclone® IV FPGA design. You can download and use the cores in software and hardware, prior to purchase, to evaluate features and performance.
- Learn more about IP cores via the IP web pages.
The Cyclone® IV FPGA family is targeted to high-volume, cost-sensitive applications, enabling you to meet increasing bandwidth requirements while lowering costs.
Low-Cost, Small Form Factor for Applications
Built on an optimized low-power process, the Cyclone IV family's two variants are Cyclone IV GX FPGAs with integrated 3.125-Gbps transceivers and Cyclone IV E FPGAs.Offering up to 150,000 logic elements(LEs), Cyclone® IV FPGAs consume up to 30 percent less total power. They're ideal for low-cost, small form factor in the following applications:
Documentation and Support
Find technical documentation, videos, and training courses for your Cyclone® IV FPGA designs