Nios II is a 32-bit embedded processor architecture designed specifically for the Altera family of field-programmable gate array (FPGA) integrated circuits. Nios II incorporates many enhancements over the original Nios architecture, making it more suitable for a wider range of embedded computing applications, from digital signal processing (DSP) to system-control.

Nios II
DesignerAltera
Bits32-bit
DesignRISC
EndiannessLittle-Endian
OpenNo
Registers
General-purpose32

Nios II is a successor to Altera's first configurable 16-bit embedded processor Nios, introduced in 2000.[1]

Key features

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Like the original Nios, the Nios II architecture is a RISC soft-core architecture which is implemented entirely in the programmable logic and memory blocks of Altera FPGAs. Unlike its predecessor it is a full 32-bit design:

  • 32 general-purpose 32-bit registers,
  • Full 32-bit instruction set, data path, and address space,
  • Single-instruction 32 × 32 multiply and divide producing a 32-bit result.

The soft-core nature of the Nios II processor lets the system designer specify and generate a custom Nios II core, tailored for his or her specific application requirements. System designers can extend the Nios II's basic functionality by, for example, adding a predefined memory management unit, or defining custom instructions and custom peripherals.

Custom instructions

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Similar to native Nios II instructions, user-defined instructions accept values from up to two 32-bit source registers and optionally write back a result to a 32-bit destination register. By using custom instructions, the system designers can fine-tune the system hardware to meet performance goals and also the designer can easily handle the instruction as a macro in C.

Custom peripherals

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For performance-critical systems that spend most CPU cycles executing a specific section of code, a user-defined peripheral can potentially offload part or all of the execution of a software-algorithm to user-defined hardware logic, improving power-efficiency or application throughput.

Memory Management Unit

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Introduced with Quartus 8.0, the optional MMU enables Nios II to run operating systems which require hardware-based paging and protection, such as the Linux kernel. Without an MMU, Nios is restricted to operating systems which use a simplified protection and virtual memory-model: e.g., μClinux and FreeRTOS.

Memory Protection Unit

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Introduced with Quartus 8.0, the optional MPU provides memory protection similar to that provided by an MMU but with a simpler programming model and without the performance overhead associated with an MMU.

Nios II CPU family

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Nios II classic is offered in 3 different configurations: Nios II/f (fast), Nios II/s (standard), and Nios II/e (economy). Nios II gen2 is offered in 2 different configurations: Nios II/f (fast), and Nios II/e (economy).

Nios II/f

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The Nios II/f core is designed for maximum performance at the expense of core size. Features of Nios II/f include:

  • Separate instruction and data caches (512 B to 64 KB)
  • Optional MMU or MPU
  • Access to up to 2 GB of external address space
  • Optional tightly coupled memory for instructions and data
  • Six-stage pipeline to achieve maximum DMIPS/MHz
  • Single-cycle hardware multiply and barrel shifter
  • Optional hardware divide option
  • Dynamic branch prediction
  • Up to 256 custom instructions and unlimited hardware accelerators
  • JTAG debug module
  • Optional JTAG debug module enhancements, including hardware breakpoints, data triggers, and real-time trace

Nios II/s

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Nios II/s core is designed to maintain a balance between performance and cost. This core implementation is not longer supported for Altera Quartus II v.17 and newer. Features of Nios II/s include:

  • Instruction cache
  • Up to 2 GB of external address space
  • Optional tightly coupled memory for instructions
  • Five-stage pipeline
  • Static branch prediction
  • Hardware multiply, divide, and shift options
  • Up to 256 custom instructions
  • JTAG debug module
  • Optional JTAG debug module enhancements, including hardware breakpoints, data triggers, and real-time trace

Nios II/e

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The Nios II/e core is designed for smallest possible logic utilization of FPGAs. This is especially efficient for low-cost Cyclone II FPGA applications. Features of Nios II/e include:

  • Up to 2 GB of external address space
  • JTAG debug module
  • Complete systems in fewer than 700 LEs
  • Optional debug enhancements
  • Up to 256 custom instructions
  • Free, no license required

Avalon switch fabric interface

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Nios II uses the Avalon switch fabric as the interface to its embedded peripherals. Compared to a traditional bus in a processor-based system, which lets only one bus master access the bus at a time, the Avalon switch fabric, using a slave-side arbitration scheme, lets multiple masters operate simultaneously.

Development processes

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Development for Nios II consists of two separate steps: hardware generation and software creation.

Development is hosted inside an Altera application called the Embedded Design Suite (EDS). The EDS contains a complete integrated development environment to manage both hardware and software in two separate steps:

Hardware generation process

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Nios II hardware designers use the Qsys system integration tool, a component of the Quartus-II package, to configure and generate a Nios system. The configuration graphical user interface (GUI) allows users to choose the Nios-II's feature-set, and to add peripheral and I/O-blocks (timers, memory-controllers, serial interface, etc.) to the embedded system. When the hardware specification is complete, Quartus-II performs the synthesis, place & route to implement the entire system on the selected FPGA target.
Qsys is replacing the older SOPC (System-on-a-Programmable-Chip) Builder, which could also be used to build a Nios II system, and is being recommended for new projects.[2]

Software creation process

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A separate package, called the Embedded Design Suite (EDS), manages the software development. Based on the Eclipse IDE, the EDS includes a C/C++ compiler (based on the GNU toolchain), debugger, and an instruction-set simulator. EDS allows programmers to test their application in simulation, or download and run their compiled application on the actual FPGA host.

Because the C/C++ development-chain is based on GCC, the vast majority of open source software for Linux compiles and runs with minimal or no modification. Third-party operating-systems have also been ported to Nios II. These include Micrium MicroC/OS-II, eCos, Segger Microcontroller embOS, ChibiOS/RT, μCLinux and FreeRTOS.

Licensing

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Nios II is comparable to MicroBlaze, a competing softcore CPU for the Xilinx family of FPGA. Unlike MicroBlaze, Nios II is licensable for standard-cell ASICs through a third-party IP provider, Synopsys Designware. Through the Designware license, designers can port Nios-based designs from an FPGA-platform to a mass production ASIC-device.

See also

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References

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  1. ^ Altera. "Nios II Embedded Processor Backgrounder" (PDF).
  2. ^ "5 Reasons to Switch from SOPC Builder to Qsys". Altera. Retrieved 16 March 2012.
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