New Wave DV

New Wave Design and Verification sets the industry standard for precision, quality, and service in electronics design and verification for high-reliability systems.

Our specialty: serving high-profile clients in industries where every detail makes or breaks an operation.

We specialize in digital design and verification of:

  • FPGAs/ASICs
  • DSPs
  • Microprocessors
  • Printed circuit boards
  • Algorithms

New Wave’s expert engineers are well versed in a variety of applications, including Verilog, VHDL, SystemVerilog, and C++. Our modular design approach facilitates meticulous, efficient design.

The recent acquisition of Advanced IO’s product line further enhances our capabilities.

We are also experts in Functional Verification, including the latest constrained random methodologies (including UVM/OVM) and modern requirement test plans.

The New Wave difference: We blend the agility and personalized service of a boutique firm with the resources of a multinational corporation to deliver an exceptional customer experience.

Contact New Wave DV

Phone: 952-224-9201

For general inquiries or product support:
info@newwavedv.com

Products
Interface Protocols IP Cores
PMC Cards XMC Cards
PCI Express Cards Platforms and Appliances
Development Tools

Line Cards: 

Products

New Wave DV - 1394b AS5643 Offload Engine IP Core

  • AS5643 compliant interface with hardware based STOF offload
  • Hardware DMA engines with message label mapped buffers
  • STOF transmitter and receiver hardware functions
  • Supports S100/S200/S400/S800/S1600/S3200 data rates
  • Configurable number of nodes and ports in a single FPGA
  • AXI-based host interface for embedded or PCIe based processors
  • Increased performance with hardware-based AS5643 offload
  • Hardware-based message label filtering and host DMA setup
  • Additional diagnostics and programmable operation features
  • Leverage proven technology for standard interface implementation

New Wave DV - 1394b GP2Lynx Link Layer IP Core

  • AS5643 compliant interface with hardware based STOF offload
  • Supports S100/S200/S400/S800/S1600/S3200 data rates
  • Configurable number of GP2Lynx nodes in a single FPGA
  • Legacy microprocessor or AXI host interface available
  • Standard PHY-Link interface
  • Increase interface port density while reducing interface size and power
  • Increased performance with hardware based AS5643 offload
  • Additional diagnostics and programmable operation features
  • Leverage proven technology for standard interface implementation

New Wave DV - 1394b OHCI Link Layer IP Core

  • AS5643 compliant interface with hardware based STOF offload
  • Supports S100/S200/S400/S800/S1600/S3200 data rates
  • Configurable number of OHCI nodes in a single FPGA
  • AXI-based host interface for embedded or PCIe based processors
  • Standard PHY-Link interface
  • Increase interface port density while reducing interface size and power
  • Increased performance with hardware-based AS5643 offload
  • Additional diagnostics and programmable operation features
  • Leverage proven technology for standard interface implementation

New Wave DV - 1394b PHY IP Core

  • AS5643 compliant interface
  • Supports S100/S200/S400/S800/S1600/S3200 data rates
  • Complete PHY layer implementation
  • Configurable number of ports per PHY instantiation
  • Configurable number of PHYs in a single FPGA Standard PHY-Link interface
  • Increase interface port density while lowering size and power
  • Additional diagnostics and programmable operation features
  • Leverage proven technology for standard interface implementation

New Wave DV - 32-Port Programmable Switch

  • Thirty-Two SFP28 ports
  • Xilinx Virtex UltraScale+ FPGA (VU5P – VU11P)
  • PPS time synchronization with nSec resolution
  • Thermal sensors for monitoring card temperature
  • Robust FPGA development framework
  • High port-density FPGA-based network appliance for custom switching applications and line-rate packet processing
  • 1/10G Ethernet and 1/2/4/8/16G Fibre Channel Out-of-the-box
  • Ultra-low latency and high-bandwidth performance
  • Programmable FPGA with a powerful development framework
  • Wide range of FPGA sizes and memory configuration options

New Wave DV - ARINC-818 IP Core

  • ARINC-818 compliant interface with hardware based offload
  • Hardware DMA engines with ARINC-818 container mapping
  • ARINC-818 container processing offloaded in hardware
  • Supports 1/2/3/4G data rates
  • Configurable number of ports in a single FPGA
  • AXI-based host interface for embedded or PCIe based processors
  • Increased performance with hardware-based ARINC-818 offload
  • Hardware-based container processing and host DMA setup
  • Leverage proven technology for standard interface implementation

New Wave DV - CaptureEPON™ 10G EPON Capture & Record System

  • Quad SFP+ ports supporting optical connectors
  • IRIG-A, B, and G time synchronization
  • PCAP Next Generation file format
  • Programmable capture size and hardware filters
  • Low latency, multi-threaded DMA host interface
  • Full bandwidth 10G EPON
  • Fully integrated with Wireshark network protocol analyzer
  • Supports TAP network sniffing and recording
  • High level API enabling quick integration with applications

New Wave DV - CaptureXG™ 1000 Quad Port 10 Gigabit Ethernet Capture PCI Express FPGA Card

  • Quad 10 Gigabit Ethernet SFP+ optical ports
  • IRIG-A, B and G time synchronization
  • PCAP Next Generation file format
  • Programmable 5-tuple filters
  • Low latency, multi-threaded DMA host interface
  • 8-lane PCI Express Gen 3
  • Industry’s lowest cost-per-port 10GE capture solution
  • Fully integrated with Wireshark network protocol analyzer
  • Supports SPAN, TAP, and in-line network monitoring
  • High-level API enabling quick integration with applications

New Wave DV - expressXG™ FPGA Development Framework

  • Modular, easy-to-use product that integrates all high-performance interfaces of the network card into one design
  • User-designated sandbox region provides easy integration with network card interfaces
  • Compatible with standard FPGA development tools from major vendors
  • Complete high-performance software libraries and drivers for Linux and VxWorks
  • Accelerates FPGA application development time-to-market
  • Enables seamless migration of applications to new cards and technologies as they become available
  • Minimizes the costs associated with product integration
  • Simplifies overall logistics of FPGA application development

New Wave DV - Fibre Channel Anonymous Subscriber Messaging (ASM) IP Core

  • Message label validation checks performed in hardware
  • Multiple user modes for receiving messages, including strictly mapped message-to-buffer and free-buffer implementations
  • Transmit message chaining options provided
  • Complete set of registers for managing core and configuring core options
  • Core can be replicated as desired for number of FC-ASM ports
  • Immediate compatibility with existing FC-ASM networks
  • Flexible implementation models for multi-port designs
  • Low risk implementation

New Wave DV - Fibre Channel Audio Video (AV) IP Core

  • FC-AV compliant interface with hardware based offload
  • Hardware DMA engines with FC-AV container mapping
  • FC-AV container processing offloaded in hardware
  • Supports 1/2/4/8/16G data rates
  • Configurable number of ports in a single FPGA
  • AXI-based host interface for embedded or PCIe based processors
  • Increased performance with hardware-based FC-AV offload
  • Hardware-based FC-AV container processing and host DMA setup
  • Leverage proven technology for standard interface implementation

New Wave DV - Fibre Channel Link Layer IP Core

  • Supports 1/2/4/8/16 Gigabit Fibre Channel N Port and F Port Types
  • Class 2 and Class 3 Fibre Channel Support
  • Switched Fabric or Point-to-Point
  • Complete FC1-FC2 functionality
  • Intuitive streaming user interface
  • Scales for multiple port designs
  • Accelerates FPGA application development time-to-market
  • Leverage proven technology for standard interface implementation
  • Lower development costs

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