Name | Type | Posted | Actions |
|---|---|---|---|
PdM MSS_RFI_NxGenGPATS_8MAY2026_v1.1.pdf | May 18, 2026 |
Next Generation General Purpose Automatic Test System (NxGenGPATS)
Contact and place of performance
Cheryl Dunn
Quantico, VA 22134
USA
SOURCES SOUGHT NOTICE Program Acquisition Executive Marine Corps (PAE MC) Program Manager Combat Support Systems (PM CSS) Next Generation General Purpose Automatic Test System (NxGenGPATS) M67854-26-I-5416 18 May 2026 NOTE: THIS IS NOT A SOLICITATION FOR PROPOSALS. THIS IS A SOURCES SOUGHT NOTICE ONLY. This sources sought notice is for planning and informational purposes only and shall NOT be considered as a Request...
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1. Purpose
The United States Marine Corps (USMC), Program Acquisition Executive Marine Corps (PAE MC), Program Manager Combat Support Systems (PM CSS), Program Product Manager Maintenance Support Systems (PdM MSS) is conducting market research in accordance with FAR Part 10, to determine the availability of qualified, experienced, and interested potential vendors capable of developing a single, modernized, and transportable test system to succeed the legacy Third Echelon Test Sets, TETS (AN/USM-657B(V)2) and Virtual Instrument Portable Equipment Repair/Tester, VIPER/T (AN/USM-717(V)2&3).
The TETS (AN/USM-657B(V)2) is a portable, multi-purpose test system used to diagnose ground electronic systems, troubleshoot maintenance issues, and verify equipment performance in the field. The VIPER/T (AN/USM-717(V)2&3) is a modular and adaptable test system designed for ground electronic ordnance equipment, including optics. Together, their capabilities include high-fidelity signal generation and analysis, testing of satellite communications, power supplies, lasers, and optics, as well as diagnosing ground electronics through detailed analysis of line-replaceable units and circuit cards.
These legacy systems suffer from a significant Size, Weight, and Power (SWaP) footprint, software obsolescence (ATLAS programming language), obsolete instrumentation backplanes (VXI), and critical hardware reliability issues stemming from aging physical components (cabling, connectors, circuit cards). The goal of the Next Generation General Purpose Automatic Test System (NxGenGPATS) is to complete modernization of both hardware and software to create a sustainable, reliable, and forward-compatible test platform.
2. Requested Capability
The Government requests industry capability statements for a consolidated test system meeting the following target parameters:
• Functional Consolidation (LRU Testing): The NxGenGPATS must be capable of testing the full suite of Line Replaceable Units (LRUs) and Electro-Optical (EO) systems currently tested by the legacy TETS and VIPER/T.
• Instrumentation Architecture (PXIe or Better): The legacy VXI architecture must be replaced. The proposed system must utilize modern, high-speed modular architecture, such as PXIe (PCI eXtensions for Instrumentation Express) or superior, to ensure sufficient bandwidth, compatibility with modern operating systems, and support for future programming languages and high-speed data acquisition.
• Modern Software Architecture & Cybersecurity: The system must utilize modern, widely supported programming languages. The use of legacy languages, such as ATLAS, is strictly prohibited. The architecture must support current and future DoD cybersecurity requirements (Risk Management Framework) and modern operating systems (e.g., Windows 11, Secure Linux/SELinux).
• Size & Weight (SWaP): The total system weight, including all required modules, shall not exceed 325 lbs. The system should be broken down into man-portable cases, with no single case exceeding 75 lbs.
• Power Architecture: The system must be powered by a robust Power Distribution Unit (PDU), which may be integrated or a separate, field-attachable module. The PDU must meet the detailed requirements specified in Section 2.1.
• Interoperability: Modular, open architecture to support future weapon systems.
2.1 Key Power Distribution Unit (PDU) Requirements
The PDU is a critical component of the system and must provide the following capabilities:
• Multi-Source Input: The PDU must demonstrate operational flexibility by accepting power from the following sources, determined by the input cable:
o DC Power: 28 VDC nominal (Threshold: 24-29 VDC @ 100A).
o Single-Phase AC Power: 220 VAC nominal (Threshold: 208-240 VAC, 58-62 Hz).
o Three-Phase AC Power: 208 VAC nominal Wye (Threshold: 185-230 VAC, 58-62 Hz).
• Power Consumption: The maximum power consumption of the entire Automated Test System (ATS) shall not exceed 4000 Watts.
• Programmable UUT Power: The PDU shall contain ten (10) programmable, floating DC power supplies for the Unit Under Test (UUT) interface, with sense lines for each. Nine sources must provide 0-40 VDC @ 5A, and one source must provide 0-65 VDC @ 5A.
• Dedicated EO Power: The PDU must provide dedicated, sequenced power for Electro-Optical (EO) components (+15 VDC and +28 VDC) via a MIL-DTL-38999 series connector or equivalent.
• Protection & Safety: The PDU must incorporate comprehensive power protection, including resettable circuit breakers, transient voltage suppression, and a readily accessible mushroom-type Emergency Power Shutdown switch.
3. Submission Instructions and Format
Interested vendors are invited to respond to this notice by providing the following information:
a. Company Profile: Company name, Commercial and Government Entity (CAGE) Code and UEI, and socio-economic status; Business size standard (large, small, veteran-owned, service-disabled veteran-owned, women-owned, etc.)
b. Instrumentation & Technical Approach: Describe your overall hardware solution. Specifically detail your proposed instrumentation backplane (e.g., PXIe) and how it resolves VXI obsolescence while supporting future OS/software upgrades. State the current Technology Readiness Level (TRL) of key components.
c. Power Distribution Approach: Describe your proposed PDU solution. Detail how it meets the multi-source input, programmable output, and protection requirements. Specify if the PDU is integrated or a separate module and how it fits within the overall system SWaP budget.
d. Software Modernization & Cybersecurity: Detail your proposed software architecture and how it replaces legacy ATLAS programming. Explain how your hardware/software stack ensures compliance with DoD cybersecurity standards and supports modern Operating Systems (e.g., Windows 11).
e. Hardware Reliability & Maintainability: Describe how your proposed hardware solution (connectors, cabling, etc.) will ensure signal integrity and mitigate the intermittent connection failures seen in legacy systems.
f. Cost Estimate: Provide a Rough Order of Magnitude (ROM) with a brief Basis of Estimate (BOE), including the estimated cost to re-develop existing ATLAS test scripts into the new modern architecture.
3.1 Responses
Vendors possessing the requisite skills, resources, and capabilities necessary to perform the stated requirements are invited to respond to this notice via submission of an executive summary of no more than ten (10) pages in length on 8 ½ x 11 in paper, using 12-point font describing product summary, complete technical support capabilities, and training and support capability. All responses must include the information cited in Section 2, Submission Instructions and be addressed to the POCs listed below or in Section 4, Questions.
Please be advised that any proprietary information must be marked as such on a page-by-page basis. The Government will not assume that any of the information provided by a respondent is proprietary, unless it is conspicuously marked on each page containing proprietary information. Moreover, the Government does not assume any duty to contact a respondent and inquire whether any unmarked information submitted in response to this notice is proprietary.
DO NOT submit proposals at this time. The Government is only seeking sources/information for market research to determine the availability of industry capabilities in the described areas. Availability of any formal solicitation will be announced separately. Submittals will not be returned to the sender.
Responses to this notice shall be submitted via email to the Contract Specialist, Ms. Cheryl Dunn, at [email protected] and the Contracting Officer, Ms. Shanna Laging, at [email protected] no later than 1000 local time, Quantico, VA, on Thursday, 18 June 2026. The subject line of the email shall be read as follows:
“M67854-26-I-5416 RFI // PdM MSS // NxGenGPATS”
Telephonic inquiries or replies will not be entertained.
4. Questions
Questions or comments regarding this notice may be addressed to the Contract Specialist, Ms. Cheryl Dunn, at [email protected] and the Contracting Officer, Mrs. Shanna Laging, at [email protected] via email. The Government requests all questions and comments be emailed to the Contract Specialist with a copy to the Contracting Officer no later than 1000 local time, Quantico, VA, on Tuesday, 26 May 2026. The subject line of the email shall be read as follows:
“M67854-26-I-5416 RFI // QUESTIONS // PdM MSS // NxGenGPATS”
The United States Marine Corps (USMC) Program Product Manager Maintenance Support Systems (PdM MSS) is conducting market research to identify vendors capable of developing the Next Generation General Purpose Automatic Test System (NxGenGPATS). This initiative seeks a single, modernized, and transportable system to replace legacy Third Echelon Test Sets (TETS) and Virtual Instrument Portable Equipment Repair/Tester (VIPER/T) units. The requirement is classified under NAICS 334515, Instrument Manufacturing for Measuring and Testing Electricity and Electrical Signals, and PSC 6625, ELECTRICAL AND ELECTRONIC PROPERTIES MEASURING AND TESTING INSTRUMENTS. The project aims to resolve issues related to size, weight, and power (SWaP) footprints, hardware reliability, and software obsolescence associated with legacy VXI architecture and the ATLAS programming language.
The proposed NxGenGPATS must utilize a modern PXIe or superior modular architecture and support Department of Defense cybersecurity standards and modern operating systems such as Windows 11 or Secure Linux. Technical requirements include a total system weight of no more than 325 pounds, divisible into man-portable cases weighing no more than 75 pounds each. The system requires a specialized Power Distribution Unit (PDU) capable of accepting multi-source AC and DC inputs and providing ten programmable DC power supplies for unit-under-test interfaces. Performance will take place in Quantico, Virginia, and the system must maintain a modular, open architecture to ensure interoperability with future weapon systems.
Capability statements for solicitation number M67854-26-I-5416 are due by June 18, 2026. Submissions must be sent to Contract Specialist Cheryl Dunn and Contracting Officer Shanna Laging and should include a ten-page executive summary detailing the technical approach, current Technology Readiness Levels, and a Rough Order of Magnitude cost estimate. One PDF attachment, titled PdM MSS_RFI_NxGenGPATS_8MAY2026_v1.1.pdf, was provided with the notice on May 18, 2026. This sources sought notice is for planning purposes only and does not constitute a formal solicitation.
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