product resource tutorial

100Gb Connectivity In VPX Systems For Aerospace & Defense

Chassis, backplanes and integrated systems that support VPX modules play a key role in enabling the use of 100Gb connectivity in the defense and aerospace industries.

The need for 100Gb connectivity in the aerospace and defense industries is driven by the ever-growing demand for higher data rates in real-time data transmission, enhanced communications capabilities, signal intelligence, operational efficiency and cybersecurity. Chip manufacturers continue to respond quickly to market needs and as a result; new SOSA aligned 3U and 6U payload modules now support 100 GbE (100GBASE-KR4) and PCI Express® (PCIe) Gen-4 protocols in processing, as well as FPGA and switching products. For backplanes, these advancements have triggered an associated per lane upshift in data rate requirements from 10Gbps to 25Gbps.

100Gb connectivity in VPX systems.

With this demand for higher data rates increasing over time in aerospace and defense applications, the push is on for even faster backplanes in systems that support these requirements. Advancements in networking technology, including improved signal processing techniques, higher-speed transceivers and high speed connectors have made implementing 100Gb connectivity feasible in ruggedized embedded computing applications. New backplane materials are now in use that support the high speeds enabled by faster silicon and connectors. New high speed PCB laminates provide the 25Gb per lane data rates necessary for 100Gb pipes and they ensure the high signal integrity required in defense applications.

Chassis, backplanes and integrated systems that support VPX modules and modules in alignment with the SOSA Technical Standard, including 100Gb SOSA aligned VPX Systems from LCR, play a key role in enabling the use of 100Gb connectivity in the defense and aerospace industries. Intelligent system designs that make use of cutting edge technology enable solutions that stay ahead in the race on the battlefield. Swift uptake of emerging solutions ensures faster time to action where it matters most.

Putting 100Gb To Use

Data transfer speeds in and between current systems, platforms and command centers continually to struggle from a lack of bandwidth and high latency. This limits the volume of data that can be transmitted simultaneously, delaying transmission of critical information, as well as constraining the capabilities of surveillance, reconnaissance and intelligence. All of these things directly impact situational awareness, decision-making and the effectiveness of a mission.

Helping The Warfighter

Today’s warfighters need the most up-to-date information available to make critical decisions in high-stress situations. Military command centers rely on high-speed connectivity to monitor and manage operations effectively. With 100Gb connectivity, commanders can access real-time situational awareness data, coordinate troop movements and communicate with deployed forces more effectively. Having information and locations transmitted in real time, could mean the difference between life and death.

VPX systems for aerospace and defense.

In Remote Operations

In remote operations, mission success relies on real time high-speed remote control, telemetry and data transmission streams in manned and unmanned systems. This level of connectivity supports a wide range of critical functions in battlefield management including situational awareness, reconnaissance, surveillance, weapons control and most importantly in hostile environments, where physical access might be limited or dangerous ensures the well-being of deployed personnel. It enables the military to leverage advanced technologies, maintain secure and reliable communications, as well as respond swiftly to dynamic operational challenges.

Cybersecurity

Defense organizations invest in extensive cybersecurity technology to protect sensitive and critical infrastructure from cyber threats. With inadequate bandwidth and slower data transfer speeds, cybersecurity operations would be hindered, making it more difficult to detect and respond to threats. As digital threats continue to evolve, it has become increasingly more important to secure communication networks against these attacks. Today’s high-speed connectivity allows for the implementation of advanced encryption and security protocols to protect sensitive data and communications. This would not have been possible 5 years ago at 10Gb speed.

Signal Intelligence

Signals intelligence relies on the rapid transfer of intercepted signals. High-speed connectivity facilities rapid transfer and signal processing for analysis and response. This is vital in maintaining a strategic and tactical advantage that ensures timely decision-making and enhances the effectiveness of intelligence operations. Signals intelligence systems collect and analyze electronic signals for intelligence gathering to help strategize electronic countermeasures.

Electronic Warfare

In electronic warfare, different frequency bands are used for various purposes such as communication, surveillance, radar, jamming and countermeasures. The choice of frequency depends on the range of operation, the nature of the target, the propagation characteristics of the electromagnetic waves and the capabilities of the electronic warfare systems involved.

LCR integrated system.

Frequencies used in electronic warfare operations can vary widely depending on the specific application and the type of electronic systems involved – spanning a range from 30 KHz in the VLF range to 3GHz in the UHF range. Digitization of these signals results in a firehose of data flooding embedded systems tasked with processing and distribution. Indeed EW applications are a primary driver for high speed signal handling technologies of any kind in embedded systems.

100Gb connectivity in VPX systems is essential in meeting the demands of high-performance computing and networking environments. It helps to enable faster data transfer, improved performance and improves scalability so military command and warfighters on the ground receive actionable and reliable real-time information.

About LCR Embedded Systems

LCR Embedded Systems designs, develops, and manufactures integrated systems, chassis and backplanes for the defense and aerospace markets. For over 35 years LCR has been a proven and reliable supplier of mission critical systems to US defense programs. LCR is at the forefront of COTS open standards chassis and system designs for VPX, CMOSS, and SOSA architectures in accordance with MOSA directives. The company is a member of VITA and the Sensor Open Systems Architecture (SOSA) Consortium. When you choose LCR Embedded Systems, you’re choosing a sustained alliance with industry-leading experts who are committed to helping you achieve your mission. At LCR, we maintain a companywide atmosphere of Continuous Improvement in all aspects of our business.

Visit LCR Embedded Systems Website

SEARCH OUR WEBSITE

Can’t find what you’re looking for?

Natalie Myers

Inside Sales Administration

Natalie Myers joined Vic Myers Associates in September 2021 and is excited to be part of the team. She received her bachelor’s in business administration from the University of Phoenix and prior to her position as Inside Sales Administration she worked in the Hospitality Industry for over 15 years as a Senior Sales Administrator. In her free time, she enjoys spending time with her husband, daughter, family and friends along with watching sporting events, traveling, hiking and cheering on her daughter in dance and basketball! Natalie is located in our Arizona office.

KAREN M. ROSS

People and Culture Specialist

Cell Phone: 505-720-9123
Email: karenr@vicmyers.com

Karen has been a part of Vic Myers Associates team since February 2023. Prior to her position as People and Culture Specialist, she worked in the Science & Technology field as an HR Manager & Project Lead for SAIC and LANL. In the short time with VMA she has learned a lot and looks forward to knowing our business even better in support of all of our employees. She values her church community, her two sons who happen to be engineers, volunteering, and golf. Karen is located in our Albuquerque, NM office.

FELECIA STIVERS

Field Sales Engineer

Felecia Stivers, a native of Rockford, IL, now excels as a Field Sales Engineer at VMA in our Arizona office. Holding a BSEE from Arizona State University, she draws from her extensive background at Medtronic, Orbital Sciences, General Dynamics, and Northrop Grumman.

Specializing in high-reliability applications, Felecia stands out for her proficiency in relationship-building and innovative problem-solving. Whether contributing to medical devices or playing a vital role in rocket launches, her work has had a tangible impact on saving lives and safeguarding the nation.

Beyond her professional pursuits, Felecia enjoys time with her two teenagers, finds joy in travel, and actively engages with her local church. Driven by a passion for helping customers navigate cutting-edge technology, she is committed to delivering dependable solutions in fast-changing environments.

TAYLOR GAUNTT

Field Sales Engineer

Taylor is a Texas native, and grew up in the small town of Boerne, Texas.  He attended Texas A&M University, where earned his bachelor’s degree in Engineering.  After college he was recruited by a Manufacturer’s Rep Firm, where he spent the first 7 years of his career. Initially hired on as an inside salesperson, Taylor quickly accelerated within the organization and expanded into various other roles such as Distribution Manager, and Field Sales Engineer.  Taylor then spent the following 7 years working for an electronic component distributor named Electro Enterprises that almost exclusively supported the mil/aero market.

Taylor worked as a Field Sales Engineer supporting the Texas, Utah and New Mexico territory, Product Manager, as well as Director or Business Development where he managed a team of 10 Field Sales Professionals across the entire United States.  Gathering from his previous experiences, Taylor has now taken on the role of Field Sales Engineer with Vic Myers supporting the Texas, Oklahoma, Louisiana, and Arkansas territory.  Outside of the office you will usually find Taylor either spending time with his wife and two young children, or out on the lake bass fishing.

TARIN SCHONCHECK

Sales Administration

Cell Phone: 480-345-6449
Email: tarins@vicmyers.com

Tarin was born and raised in Wisconsin, graduated from the University of Wisconsin-Stout and received a Bachelor of Science degree in Business Administration. Prior to Vic Myers she worked in the hospitality industry 20+ years as a Sales Analyst/Administrator.

In her spare time, Tarin enjoys spending time with her family, traveling to historical sites throughout the United States, reading, going to movies and concerts. On the weekends you will find Tarin at her nephews’ band concerts and baseball games. In addition, music and dance have been a part of her life with musical contrasting influences ranging from Prince to Olivia Newton-John.  Tarin is located in our Arizona office.

RICHARD MENDEZ

Sales Engineer

Richard was born and raised in Arizona. Attended Arizona State University with a focus in Mechanical Engineering and then fell into Technical Project Management. After 12 years of managing large budget projects spanning system integrations and upgrades, he transitioned into the role of Field Sales Engineer with VMA.

Richard has a deep passion for building relationships with his clients and principals, and supporting them to problem solve and develop innovative solutions. Outside of the office, Richard can be found volunteering as a mentor and coach of high school students at his church, running and hiking the extensive trails of Arizona, and spending time with his wife, 2 boys, 2 girls, and 2 grandkids. Richard is located in our Arizona office.