Loren Data's SAM Daily™

FBO DAILY ISSUE OF MAY 12, 2011 FBO #3456
SOLICITATION NOTICE

R -- SMM WAVE DEVICE/SYSTEM TECHNICAL ASSISTANCE, FABRICATION AND SUPPORT SERVICES

Notice Date

5/10/2011
 

Notice Type

Presolicitation
 

NAICS

541330 — Engineering Services
 

Contracting Office

National Ground Intelligence Center, ATTN: IANG-CS-LO/MS204, 2055 Boulders Road, Charlottesville, VA 22911-8318
 

ZIP Code

22911-8318
 

Solicitation Number

W911W5-11-R-0004
 

Response Due

5/25/2011
 

Archive Date

7/24/2011
 

Point of Contact

Jay Johnson, 434-980-7895
 

E-Mail Address

National Ground Intelligence Center
(jay.johnson47@us.army.mil)
 

Small Business Set-Aside

N/A
 

Description

This is a pre-solicitation notice issued in accordance with FAR 5.201. It does not constitute a formal solicitation, Request for Proposal (RFP) or a promise to issue a formal solicitation, RFP or Broad Area Announcement (BAA). The primary purpose of this notice is to improve small business access to acquisition information and enhance competition. Responders are advised that the U.S. Government will not pay any cost incurred in response to this synopsis and all costs associated with responding will be solely at the interested parties' expense. Not responding to this synopsis does not preclude participation in any future and potential solicitation, or RFP. If a formal solicitation is released, it will be issued via the Army Single Face to Industry (ASFI) Acquisition Business Web Site (https://acquisition.army.mil/asfi/) and posted on the Federal Business Opportunities (https: //www.fbo.gov) web site. It is the responsibility of the potential offerors to monitor these websites for any information that may pertain to this synopsis. The information provided in this synopsis is subject to change and is not binding on the Government. This requirement is to provide the US Army National Ground Intelligence Center (NGIC) Expert Radar Signature Solutions (ERADS) Project, and other Department of Defense (DOD) elements, support in identifying, investigating, evaluating, installing, fabricating, upgrading, producing, and supplying other engineering assistance for one of a kind customized advanced submillimeter (SMM) wave devices/components/equipment for and being used in the NGIC ERADS Compton Compact Radar Range (CCRR), the investigation and evaluation of alternative DOD related SMM wave technologies and applications, and support for devising, fabricating, and assembling modifications, upgrades or enhancements for unique compact range mechanical components and targets. In completing this work the Contractor shall maintain a state-of-the-art level of expertise in all the technical areas required for the continuing fabrication and production of SMM wave devices/components/equipment, alternate SMM technologies, and specialized compact range mechanical components and targets required by NGIC to provide signatures to DOD elements. The contractor shall make recommendations to NGIC as to the applicability of new techniques, mathematical models, materials, devices, Far Infrared (FIR) sources, FIR detectors, FIR technologies, micro-machining techniques, micro-electro mechanical systems and FIR systems for use in the ERADS CCRR and in related DOD applications. Devices, instruments, software and hardware systems, algorithms, detectors, receivers, sources, transceivers, compact range mechanical components and targets, and other related systems shall be produced, fabricated, assembled, operational parameters verified, demonstrated, delivered, installed and made operational in the NGIC ERADS Project test bed radar ranges or at other facilities as specified. NGIC ERADS project transceiver radar systems use fast-switching frequency synthesizers to drive custom designed schottky type diode multiplier chains to generate the required output radar frequencies and bandwidths in the 160 GHz through 700 GHz range, or using a CO2-FIR laser based ultra stable source driving schottky type diodes as side band generators to produce the required radar frequencies and bandwidths in the 350 GHz through 3.0 THz range. In addition to the diodes, associated items such as custom mounting hardware, integrated circuits, and bias electronics are integral to these transceivers. The objective of this requirement is to procure support for the following: - maintain a state-of-art competence in all technical areas required for ERADS THz/SMM Wave/FIR radar and radar range facilities applications, advise NGIC ERADS Project on promising technologies, and make recommendations of technologies to pursue. - provide ERADS Project technical assistance in installing, maintaining, and upgrading compatible SMM Wave devices, components, systems, for THz transceiver radar systems and compact radar range mechanical systems. - to design, produce, fabricate compatible custom Schottky barrier point contact, conventional and membrane planar, and related diodes, components, and detectors/receivers or sources for use in ERADS Program transceiver radar systems. - fabricate and maintain a stock of compatible diodes and components. - perform characterizations of SMM devices/components/systems with custom THz calibration instrumentation equipment. - to design, produce, fabricate custom superconducting junctions/devices for use in ERADS Project transceiver test bed radar systems. - to design, produce, fabricate and operate other promising solid state or technical customized components for use as THz tunable milliwatt power sources and receivers for use in ERADS Project transceiver test bed radar systems. - to design, produce, fabricate and operate specific one-of-a-kind THz spectrum transceiver mechanical and micro electro-mechanical components for use in ERADS Project transceiver test bed radar systems. A draft Performance Work Statement (PWS) is available with this notice to provide a means of becoming familiar with the specific tasks of this requirement. Performance of this contract shall be conducted at the Contractor's facilities and/or at Government specified facilities, as required. Possible Government facility is USA NGIC, Charlottesville, VA with other USA NGIC Contractor sites to be determined. The proposed contract vehicle will be a single-award Cost No-Fee type contract with one base year and four option years. Be advised, one specific base task will be exercised per contract year and the twelve optional tasks will only be executable upon available funding. Deliverables for each task shall be specified in the PWS. Contracting Office Address: National Ground Intelligence Center, ATTN: IANG-CS-LO/MS204, 2055 Boulders Road, Charlottesville, VA 22911-8318 Point of Contact(s): Jay Johnson, 434-980-7895 Email: jay.johnson47@us.army.mil Performance Work Statement (Draft) for the SMM WAVE DEVICE/SYSTEM TECHNICAL ASSISTANCE, FABRICATION AND SUPPORT SERVICES SECTION 1 GENERAL INFORMATION (Removed from this posting due limited characters allowed) 1. GENERAL: This document is a non-personnel services contract to provide for the SMM Wave Device/System Technical Assistance, Fabrication and Support. The Government will not exercise any supervision or control over the contract service providers performing the services herein. Such contract service providers shall be accountable solely to the contractor who, in turn is responsible to the Government. 1.1 Description of Services/Introduction: The contractor shall provide all personnel, equipment, supplies, facilities, administration, tools, materials, supervision, and other items and non-personal services necessary to perform the SMM Wave Device/System Technical Assistance, Fabrication and Support as defined in this Performance Work Statement (PWS) except for those items specified as Government Furnished Property and services. The contractor shall perform to the standards in this contract, preparing technical, administrative, progress, and status reports for review and dissemination by the Government along with other deliverables as defined in this PWS and in the attached CDRLs, DD Form 1423. 1.2 BACKGROUND (Removed from this posting due limited characters allowed) 1.3 Objectives: - maintain a state-of-art competence in all technical areas required for ERADS THz/SMM Wave/FIR radar and radar range facilities applications, advise NGIC ERADS Project on promising technologies, and make recommendations of technologies to pursue. - provide ERADS Project technical assistance in installing, maintaining, and upgrading compatible SMM Wave devices, components, systems, for THz transceiver radar systems and compact radar range mechanical systems. - to design, produce, fabricate compatible custom Schottky barrier point contact, conventional and membrane planar, and related diodes, components, and detectors/receivers or sources for use in ERADS Program transceiver radar systems*. - fabricate and maintain a stock of compatible diodes and components. - perform characterizations of SMM devices/components/systems with custom THz calibration instrumentation equipment. - to design, produce, fabricate custom superconducting junctions/devices for use in ERADS Project transceiver test bed radar systems. - to design, produce, fabricate and operate other promising solid state or technical customized components for use as THz tunable milliwatt power sources and receivers for use in ERADS Project transceiver test bed radar systems. - to design, produce, fabricate and operate specific one-of-a-kind THz spectrum transceiver mechanical and micro electro-mechanical components for use in ERADS Project transceiver test bed radar systems. * NGIC ERADS project transceiver radar use fast-switching frequency synthesizers to drive custom designed schottky type diode multiplier chains to generate the required output radar frequencies and bandwidths in the 160 GHz through 700 GHz range, or using a CO2-FIR laser based source driving schottky type diodes as side band generators to produce the required radar frequencies and bandwidths in the 350 GHz through 3.0 THz range. In addition to the diodes, associated items such as custom mounting hardware, integrated circuits, and bias electronics are integral to these transceivers. 1.4 Scope: (Removed from this posting due limited characters allowed) 1.5 Period of Performance: The period of performance shall be for one (1) Base Year and four (4) option years. The majority of specific tasks will be for 12 month POPs along with selected 15 and 18 month POP for selected specific tasks in the first 4 contract years which require lead time for the acquisition of commercial-off-the-shelf or production of customized items needed to complete the required effort. The period of performance is as follows: Base Year: 16 September 2011 - 15 March 2013 Option Year One: 16 September 2012 - 15 March 2014 Option Year Two: 16 September 2013 - 15 March 2015 Option Year Three: 16 September 2014 - 15 March 2016 Option Year Four: 16 September 2015 - 15 September 2016 1.6 General Information: 1.6.1 Quality Control Plan: The contractor shall develop and maintain an effective quality control program to ensure support/services are performed in accordance with this PWS. The contractor shall develop and implement procedures to identify, prevent, and ensure non-recurrence of defective support/services. The contractor's quality control program is the means by which he assures himself that his work complies with the requirements of the contract. A copy of the contractor's quality control plan shall be delivered to the Contracting Officer for review and acceptance within 30 days after contract award, and a copy of the contractor's quality control plan shall be submitted within 5 working days when any changes to the plan are made thereafter. 1.6.2 Quality Assurance: The Government will evaluate the contractor's performance under this contract in accordance with the Quality Assurance Surveillance Plan (QASP). This plan is primarily focused on what he the Government must do to ensure that the contractor has performed in accordance with the performance standards. It defines how the performance standards will be applied, the frequency of surveillance, and the minimum acceptable defect rates. 1.6.3 Place of Performance: The work to be performed under this contract shall be at the Contractor's facilities and/or at Government specified facilities, as required. Possible Government facility is USA NGIC, Charlottesville, VA with other USA NGIC Contractor sites to be determined. 1.6.4 Type of Contract: The Government will award a Cost Contract for the work defined in each base and optional specific task of the SMM Wave Device/System Technical Assistance, Fabrication and Support PWS. The costs for all base and optional specific tasks will be fixed on Contract Award. Optional specific task funding is dependent on available funds. Undefined specific tasks will be included in the PWS and will require negotiation of effort and cost whenever the Government identifies a requirement which qualifies under the scope and general description of this PWS. A specific task requirement will be provided to the Contractor and the Contractor shall submit a proposal within (10) working days with proposed work hours, travel, material and/or other costs required to accomplish the defined task. 1.6.5 Security Requirements: N/A 1.6.6 Post Award Conference/Periodic Progress Meetings: (Removed from this posting due limited characters allowed) 1.6.7 Contracting Officer's Representative (COR): The COR will be identified by separate letter. The COR monitors all technical aspects of the contract and assists in contract administration. The COR is authorized to perform specific functions as defined in the assignment letter. The letter of designation is issued to the COR, a copy of which is sent to the contractor, states the responsibilities and limitations of the COR, especially with regard to changes in cost or price, estimates, or changes in delivery dates. The COR is not authorized to change any of the terms and conditions of the resulting contract. 1.6.8 Key Personnel: The principal investigator or investigators, and any alternate principal investigators performing the work required in this PWS are considered key personnel by the Government and shall have, and adequately demonstrate, the following qualifications: - Successfully manage, supervise, and administer similar types of technical assistance, fabrication and support programs and/or efforts. - Knowledge, skills, and experience in the technical areas required to devise, produce, fabricate and use detectors/receivers or sources in the 0.1 to 3.0 THz FIR spectral region based on conventional and advanced Schottky and Varactor solid-state diodes. - Knowledge, skills, and experience in the technical areas required to devise, produce, fabricate and use detectors/receivers in the 0.1 to 3.0 THz FIR spectral region based on conventional Superconducting junctions/devices. - Knowledge, skills, and experience in the technical areas required to devise, produce, fabricate and use as detectors/receivers in the 0.1 to 3.0 THz FIR spectral region, other advanced Superconducting Electronic devices such as SQUIDs and Hot Electron Bolometers (HEB). - Knowledge, skills, and experience in the technical areas required to assemble, fabricate, maintain, and operate FIR Lasers, associated equipment, optics, and other components for use as FIR stable, tunable sources as test bed facilities. - Knowledge, skills, and experience in the operation of clean room facilities to fabricate/produce solid state and superconducting junctions/ devices described above. -Knowledge, skills, and experience in the technical areas required in assisting NGIC ERADS Project in radar signature production support by fabricating Government specified one-of-a-kind compact range mechanical components and targets. - Knowledge, skills, and experience in the areas and use of everyday laboratory equipment such as, but not limited to, cryogenics, vacuum systems, electronics, and computer data acquisition, processing and storage systems. - Knowledge, skills, and experience in the technical areas required in utilizing SMM wave technologies and capabilities in alternative DOD areas of interest and applications, such as for biological material characterization. The Government expects that the individuals performing the work described will consist of a technical team of University or equivalent professionals, to include but not be limited to; Professors, Research Professors, Scientists, Engineers, Research Assistants/Associates, Technicians, Graduate Students, and Undergraduate Students. The principal individuals working on this program shall have 15 years of specific experience in the semiconductor, superconductor, laboratory and facility systems, and related areas described above. The principal investigator or investigators, and any alternate principal investigators shall have full authority to act for the contractor on all contract matters relating to daily operations of this contract and shall be available during normal business hours (8:00AM - 5:00PM), Monday through Friday, except for Federal holidays. 1.6.9 CONTINGENCIES Situations that arise during the course of this contract which the Contractor believes will have an adverse effect on work being performed, such as changes in principal personnel or in organizational affiliation, shall immediately be brought to the attention of the NGIC Contracting Officer's Representative (COR). 1.6.10 Data Rights: The Government has unlimited rights to all documents/material produced under this contract. All documents and materials produced under this contract shall be Government owned and are the property of the Government with all rights and privileges of ownership/copyright belonging exclusively to the Government. These documents and materials may not be used or sold by the contractor without written permission from the contracting officer. All materials supplied to the Government will be the sole property of the Government and may not be used for any other purpose. This right does not abrogate any other Government rights. SECTION 2 2. DEFINITIONS: (Removed from this posting due limited characters allowed) SECTION 3 FACILITIES, PROPERTY, EQUIPMENT, AND SERVICES 3.1 GOVERNMENT FURNISHED_PROPERTY, EQUIPMENT, AND SERVICES: 3.1.1 Facilities: The Government will provide access to Government facilities in order to complete specific tasks which require testing and demonstration of devices, components or systems deliverables in a test bed or compact range facility as detailed in Section 4, Specific Tasks of this PWS. 3.1.2 GFP and Other Information: The Government will provide items, property, and equipment as detailed in the GFP list, DD Form 1662, dated 15 Sep 2011 in PWS Attachment B and other related information as appropriate and required for specific task execution/performance in PWS Section 4. 3.2 CONTRACTOR FURNISHED FACILITIES, EQUIPMENT, AND SERVICES: 3.2.1 Contractor General Requirements: The Contractor shall provide all materials, facilities, equipment, personnel, and other necessities for the completion of work required by the specific tasks except those items listed in the attached government-furnished property list (PWS ATTACHMENT B) Section 3.1.1 of this PWS. 3.2.2 Contractor Management Reporting (CMR): The contractor shall provide an annual manpower report (https://cmra.army.mil/) as required to meet reporting by the National Defense Authorization Act for FY2008, Section 807. The Office if the Assistant Secretary of theArmy (Manpower & Reserve Affairs) operates and maintains a secure Army data collection site where the contractor will report all contractor manpower (including subcontractor manpower) required for the performance of this contract. Requirements are specified in contract Section H.15 SECTION 4 SPECIFIC TASKS 4.1 ERADS Project and FACILITIES SUPPORT: The Contractor shall conduct the necessary investigations, studies, and reviews, and participate in conferences and meetings to maintain a state-of-the-art level of expertise in all scientific, engineering, and technical areas related to SMM wave technologies for radar applications. Particular attention shall be given to SMM-Wave application of emerging proven technologies/capabilities with FIR sources, devices, sensors, incoherent and coherent transceivers, micro-machining techniques, and micro-electric mechanical components/systems. Based on the information acquired, the Contractor shall identify promising advances and make recommendations to NGIC in these areas. In addition, the Contractor shall provide ERADS Project technical assistance in installing, maintaining, sustaining and upgrading one of a kind advanced submillimeter-wave equipment/ systems, compact range mechanical equipment/systems, and targets fabricated for and being used in the NGIC and NGIC Contractor test bed compact radar ranges. The Contractor shall maintain and upgrade on-site Contractor and Government furnished property (GFP). Specifically, the Contractor shall: 4.1.1 Investigate, study, review, and participate in conferences/meetings in technical areas related to: terahertz solid-state devices, arrays, systems, and technologies; superconducting devices, arrays, and technologies; micro-machining techniques, high electron mobility transistors, monolithic microwave integrated circuits, and micro-electromechanical structures and components which may have potential applications in the FIR region for radar mixers, receivers, sources, transceivers and other components. The work to be performed under this specific task will be considered a base task for each year of the contract. FY11 through FY16 4.1.2 The Contractor shall support the NGIC ERADS Project operating capability by providing technical assistance in customizing, maintaining, sustaining, and upgrading the solid-state transceivers and associated support equipment, optics and optical components, detectors, mixers, Schottky Barrier Diodes and mounts (such as corner cubes, wave-guides and integrated circuits), RF receiver modules, diplexers and other compact range radar components and equipment. The work to be performed under this specific task will be considered a contract option for each year of the contract. FY11 through FY16 4.1.3 The Contractor shall support the NGIC ERADS Project operating capability by providing technical assistance in customizing, maintaining, sustaining, modifying, fabricating, and upgrading unique one-of-a-kind compact range mechanical equipment, targets, and other compact range components. The work to be performed under this specific task will be considered a contract option for each year of the contract. FY11 through FY16 4.1.4 The Contractor shall maintain and upgrade existing Contractor and Government furnished property in order to sustain a state-of-the-art capability for continuing the design and production of SMM-Wave devices, components, equipment, and related technology systems as required by NGIC ERADS Project. Work performed under this specific task shall include, but not be limited to, maintaining and upgrading existing CO2-FIR Laser Systems, Superconducting Detector Systems, Schottky Barrier Diode Transceiver Systems, Solid State source systems, Spectrometers, Vector Network Analyzers, and associated support equipment. The work to be performed under this specific task will be considered a contract option for each year of the contract. FY11 through FY16 4.1.5 The Contractor shall investigate, customize, assemble, procure, implement or fabricate, document operational parameters, and install improvements to the operating systems in the ERADS Project compact ranges, test bed systems or Contractor SMM wave facilities, in the future, as yet to be determined, as may be required, to maintain, sustain, and upgrade them. This specific task may be exercised multiple times in each year of the contract, to be negotiated at the time of exercise. The work to be performed under this specific task will be considered an option. (Undefined) 4.2 SCHOTTKY DIODE TECHNOLOGY: The object of this Task is to produce and fabricate customized; Schottky barrier advanced point contact and conventional/membrane planar diodes, varactor type diodes, and other related devices for use in heterodyne FIR mixers, transmitters and receivers, sub--harmonically pumped receivers, and FIR wave-guide receivers. Each of these areas shall be investigated and evaluated with the ultimate goal of producing more sensitive, stable, and optically isolated FIR devices, components, assemblies, and receivers for use in the NGIC ERADS Project compact ranges. Related hardware items and equipment along with a reliable supply of proven compatible diodes shall be fabricated concurrently to support these specific tasks. Items and systems produced shall be delivered, installed, and demonstrated in the NGIC ERADS Project compact ranges, test bed systems, or other Government designated facilities. 4.2.1 The Contractor shall produce, fabricate, assemble, characterize, and deliver advanced Schottky barrier diodes for use in ERADS Project radar transceivers at the principle frequencies of 160 GHz, 240 GHz, 320 GHz, 520 GHz and 1.6 THz. Whisker-contacted and planar diodes for system compatible replacements and upgrades shall be fabricated based on existing and latest technology. An inventory of not less than fifty whisker-contacted and twenty five planar devices shall be maintained for delivery to the ERADS project's compact radar ranges. The Contractor shall notify ERADS Project personnel whenever diodes with improved characteristics are fabricated and inventoried; and, initiate and coordinate delivery for radar system upgrades. Specifically, the Contractor shall: 4.2.1.1 Produce, acquire, fabricate devices, components and parts in order to investigate, produce, fabricate, assemble, characterize, document parameters, and establish advanced, reliable, and repeatable integrated GaAs or InP diode advanced production techniques and devices. Fabricate, document parameters, demonstrate, and characterize prototype devices as improvements for the ERADS Project radar systems. Produce, assemble, fabricate, characterize, and inventory a minimum of 50 advanced whisker and/or planar diodes using advanced integrated wafer bonding techniques for mixers, multipliers and sideband generators for the ERADS Project 160 GHz, 240 GHz, 320 GHz, 520 GHz and 1.6 THz radars. This specific task will be considered a contract option. FY11-FY13 18 month task. 4.2.1.2 Produce, acquire, fabricate devices, components and parts in order to investigate, produce, fabricate, assemble, characterize, document parameters, and establish an advanced beam lead component attachment process for convention and membrane planar diodes used in ultra-small FIR devices, wave-guides, and integrated circuits. Demonstrate and characterize this capability, and document improvements and potential problems encountered in comparison to conventional mounting techniques. Incorporate this customized process into existing standard diode production and produce a minimum of 25 advanced diodes for the ERADS Project 160 GHz, 240 GHz, 320 GHz, 520 GHz and 1.6 THz radars. This specific task will be considered a contract option. FY12-FY14 18 month task. 4.2.1.3 Investigate, produce, document parameters, and evaluate advanced processes for fabricating improved Schottky diode devices to control nanoscale features associated with parasitic parametrics. Emphasis should be placed on reducing or optimizing the parasitics, such as capacitance and inductance, inherent in operation of these devices in order to increase circuit performance, in particular above 1 THz. Document and recommend the most promising processes and/or other technique that will provide devices with potential performance improvements for the ERADS Project radar systems. This specific task will be considered a contract option. FY13-FY14 12 month task 4.2.1.4 Fully characterize, establish, document parameters, and demonstrate advanced control and production processes for fabricating advanced Schottky diode devices with improved parasitic nanoscale features. Emphasis should be placed on reducing or optimizing the parasitic nanoscale phenomena inherent in operation of these devices in order to increase circuit performance for all ERADS Project radars. Fabricate, produce, demonstrate, and characterize prototype devices as potential improvements for the ERADS Project radar systems. This specific task will be considered a contract option. FY14-FY15 12 month task 4.2.1.5 Incorporate parasitic reduction advancements into diode and integrated circuit fabrication technologies and demonstrate full production capability. Produce a minimum of 50 advanced diodes for the ERADS Project 160 GHz, 240 GHz, 320 GHz, 520 GHz and 1.6 THz radars. Document technology advancements and deliver diode inventory to NGIC ERADS Project or to an ERADS test bed designated Government or Contractor agency/facility. This specific task will be considered a contract option. FY15-FY16 12 month task 4.2.2 The Contractor shall investigate, produce, evaluate, characterize, and document, techniques, methods, and other capabilities to fabricate and deliver prototype GHz-THz frequency high order multiplier sources, mixers, and receivers for operation at the frequency ranges used in the ERADS Project test bed and compact radar ranges. Modular devices shall be produced as replacements to provide upgrades to the existing and future ERADS Project radar systems. Specifically, the Contractor shall: 4.2.2.1 Investigate and evaluate the best architecture/methodology for fabricating FIR frequency high-order multipliers, such as quadruplers, for operation in the ERADS Project radar's output frequency range of 160 GHz to 3 THz. Characterize and document competing circuits/methods and recommend the most promising technique for future application. This specific task will be considered a contract option. FY11-FY12 12 month task 4.2.2.2 Produce and fabricate devices, components and parts in order to assemble and characterize a prototype customized test-bed FIR high-order frequency multiplier, direct quadrupler, based on the latest integrated circuit planar diode technology for operation in 1.5-1.6 THz radar. Emphasis should be placed on using the most promising technique, such as 'membrane' type planar diodes, for providing improvements in power, stability, reliability and bandwidth to existing ERADS Project radar systems. This specific task will be considered a contract option. FY12-FY14 15 month task. 4.2.2.3 Fabricate, assemble, characterize, document parameters, and demonstrate an integrated prototype quadrupler multiplier for operation in 1.5-1.6 THz radar. Characterize and document the operation of this source, noting improvement and problems as compared to conventional similar frequency multipliers operating in the ERADS Project test bed radar systems. This specific task will be considered a contract option. FY13-FY14 12 month 4.2.2.4 Produce and fabricate devices, components and parts in order to investigate and evaluate customized prototype Schottky diode detectors for six-port receivers for operation in the frequency range above 300 GHz with the goal of scaling to 1 THz and above. Document circuitry projected improvements and capabilities for better characterizing the performance parameters of customized submillimeter-wave devices, components, and equipment in these frequency ranges. This specific task will be considered a contract option. FY14-FY16 18 month task. 4.2.2.5 Produce, fabricate, assemble, document parameters, demonstrate, characterize and deliver an integrated six-port diode based prototype receiver for operation in the frequency range above 300 GHz. Characterize and document the operation and reliability of this prototype receiver as a potential replacement component for ERADS Project future radar systems. This specific task will be considered a contract option. FY15-FY16 12 month task 4.2.3 The Contractor shall investigate, produce, assemble, characterize, and document, customized techniques, methods, and other capabilities to fabricate and deliver prototype diode based focal plane THz imaging array receivers or alternate imaging capabilities for potential use in the ERADS Program compact radar ranges. Emphasis shall be placed on the investigation and evaluation of existing and emerging state-of-the-art methodologies and techniques required for fabricating THz imaging array modules that can be used in ERADS radars for full target image production. Evaluations with recommendations detailing the most promising methods and techniques shall be provided. Fabrication, evaluation, characterization, and demonstration of a customized prototype diode based 1.6 THz focal plane array module receiver shall be documented and delivered to the ERADS Program. Specifically, the Contractor shall: 4.2.3.1 Produce and fabricate devices, components and parts in order to acquire required information from existing Schottky diode specialized production techniques/methodologies. Investigate and evaluate the best customized Schottky diode device techniques/methodology for fabricating a prototype 1.6 THz focal plane array receiver module for operation in the ERADS Program's compact radar range. Characterize and document competing circuits/methods and recommend the most promising technique for future application. This specific task will be considered a contract option. FY11-FY13 15 month task. 4.2.3.2 Investigate and evaluate alternative imaging techniques/methodology, such as advanced Hadamard imaging using switchable masks for fabricating a prototype radar signature imaging capability for operation in the ERADS Program's compact radar range Characterize and document competing circuits/methods and recommend the most promising technique for future application. This specific task will be considered a contract option. FY12-FY13 12 month task. 4.2.3.3 Produce, fabricate, and/or procure devices, components and parts in order to fabricate and characterize customized 1.6 THz test-bed prototype imaging array receivers based on the latest state-of-the-art technologies for potential operation in an ERADS test bed radar. Emphasis should be placed on using the most promising technique for providing viable direct imaging systems with adequate power, stability, reliability and bandwidth for imaging targets in existing ERADS Program radar systems. This specific task will be considered a contract option. FY13-FY15 18 month task. 4.2.3.4 Fabricate, assemble, characterize, refine, and demonstrate a prototype focal plane or alternate technology imaging array module for potential operation in an ERADS 1.5-1.6 THz test bed radar system. Characterize and document the operation of this receiver, noting improvement and problems as compared to conventional scanning systems operating in the ERADS Project radar systems. This specific task will be considered a contract option. FY14-FY15 12 month task. 4.2.3.5 Fabricate, assemble, document parameters, and deliver a prototype optimized 1.5 to 1.6 THz output frequency focal plane or alternate technology imaging array module receiver. Optimize, characterize and document the operation of this module for maximum sensitivity, resolution, speed and repeatability. This specific task will be considered a contract option. FY15-FY16 12 month task. 4.2.4 The Contractor shall investigate, produce, assemble, procure, implement or fabricate, and characterize customized Schottky barrier diodes, devices, and related technology advances for use in FIR spectra mixers/receivers, in the future, as yet to be determined, as may be required, to maintain, sustain, upgrade, and replace heterodyne mixers, receivers, and/or transceivers in the NGIC ERADS Project. This specific task may be exercised multiple times in each year of the contract, to be negotiated at the time of exercise. (Undefined) 4.3 SUPERCONDUCTING DEVICE FIR TECHNOLOGY: The object of this Task is to investigate, evaluate, produce and fabricate customized: superconducting materials, junctions, and devices; integration and evaluation of these new devices as superconducting FIR direct detectors/systems; and, integration and evaluation of these same devices as superconducting heterodyne FIR receiver components/systems. Prototype receiver components shall be produced, fabricated, characterized, and demonstrated. The final customized prototype components or modules shall be delivered, installed, and demonstrated by NGIC ERADS Project in a test-bed radar system. The applicability of using superconducting devices for advanced FIR radar systems shall be investigated and evaluated with the ultimate goal of producing more sensitive lower noise FIR receivers for use in the NGIC ERADS Project radars. 4.3.1 The Contractor shall investigate, assess, evaluate, assemble, optimize, document parameters and demonstrate customized innovative superconducting materials, devices, junctions, and component prototypes, which show potential for improved direct or heterodyne receiver elements in the ERADS Project FIR frequency spectrum. This task shall include, but not be limited to, emerging specialized materials such as low and high critical temperature superconducting materials and devices. Specifically, the Contractor shall: 4.3.1.1 Investigate and evaluate existing and emerging superconducting materials, junctions, and devices for use as customized SMM-Wave multiplier or IF amplifier modules. Study and characterize high and low critical temperature superconducting materials for use in the fabrication of customized improved FIR receiver components. Evaluate emerging superconducting capabilities/devices and recommend the most promising capability/device for application in the ERADS Project FIR spectral region of interest. This specific task will be considered a contract option. FY11-FY12 12 month task. 4.3.1.2 Produce, assemble, and evaluate a customized prototype superconducting device, such as a high critical temperature hot electron bolometer mixer circuit or a low noise SQUID amplifier, for operation at 160 GHz or 520 GHz. Devise a plan to integrate one new prototype device into a NGIC ERADS Project test-bed radar system and provide recommendations of the potential gain and costs of fabricating such a module. This specific task will be considered a contract option. FY12-FY13 12 month task. 4.3.1.3 Produce, assemble, document parameters, and demonstrate one customized prototype superconducting component, such as a high critical temperature hot electron bolometer mixer circuit or a low noise SQUID amplifier, for operation at 160 GHz or 520 GHz. Incorporate this component into a FIR source or receiver subassembly module and optimize its operation. Characterize and document the performance of this prototype module. This specific task will be considered a contract option. FY13-FY14 12 month task. 4.3.1.4 Based on state-of-the-art results/knowledge and latest technologies, produce, assemble, document, and demonstrate one Contractor/NGIC selected customized superconducting device/component prototype module for eventual integration and demonstration in a NGIC ERADS Project test-bed radar system. Based on this component, devise a plan for the fabrication of a replacement drop-in module and for its operational evaluation. This specific task will be considered a contract option. FY14-FY15 12 month task. 4.3.1.5 Produce, fabricate, assemble, a customized superconducting device/component replacement drop-in module for operation in a NGIC ERADS Project test-bed radar system. After evaluating and characterizing the performance of this module, deliver an optimized version to NGIC ERADS Project for demonstration by NGIC ERADS in a test-bed radar system. This specific task will be considered a contract option. FY15-FY16 12 month task 4.3.2 The Contractor shall investigate, produce, evaluate, fabricate, assemble, characterize, and document parameters of customized prototype advanced high critical temperature HEB mixer circuit based receiver modules for operation in the 1.0 to 3.0 THz frequency range. Emphasis should be placed on the production of prototype modules with increased sensitivity and bandwidth, along with reduced local oscillator power requirements. The final prototype replacement drop-in devices/components/modules shall be delivered, installed, and demonstrated by NGIC ERADS Project in a test-bed radar system. Specifically, the Contractor shall: 4.3.2.1 Investigate, evaluate, and recommend the most promising architecture for a customized 1.0 to 3.0 THz superconductor hot electron bolometer (HEB) mixer receiver circuit for eventual integration into a ERADS Project test-bed radar system. Based on this architecture, devise an optimized HEB mixer for improved sensitivity, radio frequency (RF) bandwidth, and reduced local oscillator power. This specific task will be considered a contract option. FY11-FY12 12 month task. 4.3.2.2 Produce, acquire, fabricate devices, components and parts in order to fabricate, assemble, and characterize a customized HEB mixer component based receiver on the latest technologies. Demonstrate mixer operation and, measure and characterize the 1.0 to 3.0 THz operating performance. FY12-FY14 18 month task. 4.3.2.3 Produce, acquire, fabricate devices, components and parts in order to assemble, characterize and deliver an optimized custom 1.6 THz HEB mixer receiver module with maximum RF bandwidth and sensitivity for evaluation in an ERADS Project test-bed radar system. Provide documentation on the operating requirements, in particular the mixer's performance as a function of local oscillator power and other output performance This specific task will be considered a contract option. FY13-FY15 18 month task. 4.3.2.4 Produce, acquire, fabricate devices, components and modules in order to investigate and evaluate the parasitic parametrics of a customized 1.6 THz superconducting HEB mixer receiver module. Identify and characterize the module's parasitic phenomena, and modify the HEB mixer for optimized performance. Assemble improved components for this receiver module and demonstrate and evaluate module operation. This specific task will be considered a contract option. FY14-FY16 18 month task. 4.3.2.5 Investigate, and evaluate prototype customized 1.6 THz superconducting HEB mixer receiver module technology for potential applications in THz transceivers. Identify, characterize and evaluate the module's technology for source capabilities, and devise an improved HEB receiver for source applications. Produce and assemble a concept HEB transmitter/source module and document performance parameters and characteristics. Provide a recommendation as to the potential of these customized components for THz transmitters/sources. This specific task will be considered a contract option. FY15-FY16 4.3.3 The Contractor shall investigate, produce, assemble, procure, implement, fabricate, and characterize customized superconducting materials, devices, junctions, components, and related technology advances for use in NGIC ERADS Project FIR spectrum detectors/receivers, in the future, as yet to be determined, as may be required, to maintain, sustain, upgrade or replace direct or heterodyne ERADS Program transceiver components, modules, and systems. This specific task may be exercised multiple times in each year of the contract, to be negotiated at the time of exercise. (Undefined) 4.4 ALTERNATIVE MM and SMM-WAVE TECHNOLOGIES AND APPLICATIONS: The Contractor shall investigate, produce, assemble, characterize and document parameters, components and subassemblies based on existing and emerging alternative MM and SMM-Wave technologies for potential operation as high-power amplifiers and other transceiver components in the ERADS Project GHz and THz test-bed and operational systems. Promising solid state systems, such as FIR spectrum lasers and specialty transistors (HEMB), shall be evaluated for output frequency, power, stability, purity, and other spectral characteristics necessary for assembling a transmitter for use as either a primary FIR radiation source or a local oscillator. Solid state system based transmitters shall be investigate and evaluated, and if promising, produced, fabricated, assembled, and demonstrated, at Government specified frequencies in the FIR spectrum, and be delivered and installed in a NGIC ERADS Project test-bed radar system. 4.4.1 The Contractor shall investigate, produce, evaluate, fabricate, assemble, characterize, and demonstrate customized alternative MM and SMM-Wave technology based intermediate frequency (IF) amplifiers for operation in the 160 GHz to 3 THz frequency range ERADS Project radars. The goal of this task is to produce amplifiers that can boost the power from primary sources, multipliers, and mixers used in the ERADS Project radars, while maintaining the integrity of the radar's output beam quality, stability, and performance. Specifically, the Contractor shall: 4.4.1.1 Survey, investigate, and evaluate latest wideband high-power MM and SMM-Wave technologies for producing improved amplifier modules for use in the ERADS Project radar systems. Assess these technologies and evaluate their potential for improving the ERADS Project radars. This specific task will be considered a contract option. FY11-FY12 12 month task. 4.4.1.2 Investigate and produce power combining architectures suitable for amplifier modules for use in the ERADS Program radar systems based on the most promising latest MM and SMM-Wave technology. Characterize and evaluate this amplifier's operating parameters, stability, and reliability. Compare these parameters with those of other FIR operational radar amplifiers. This specific task will be considered a contract option. FY12-FY13 12 month task. 4.4.1.3 Produce, acquire, fabricate devices, components and parts in order to fabricate, assemble, and characterize a customized bench-top prototype intermediate frequency amplifier based on the most promising latest power amplifying/combining devices or array. Optimize the operating capability of this amplifier module. Establish and evaluate the operating parameters of this customized amplifier and determine its reliability. This specific task will be considered a contract option. FY13-FY15 18 month task. 4.4.1.4 Fabricate, assemble, and produce customized prototype intermediate frequency amplifier module(s) based on state-of-the-art power amplifying/combining devices or array, and other promising techniques. Characterize the operating capabilities of these amplifier modules and evaluate system performance. Evaluate and modify amplifier module to optimize performance as an ERADS Project radar intermediate frequency amplifier component. This specific task will be considered a contract option. FY14-FY15 12 month task. 4.4.1.5 Based on a customized power amplifying/combining device or array intermediate frequency prototype module; produce, fabricate, assemble, and demonstrate an upgraded drop-in replacement amplifier module for an ERADS Project 160 GHz to 1.6 THz radar system. Optimize the operating capability of this amplifier module. Deliver demonstrated module for evaluation by ERADS Project in a test-bed radar system. This specific task will be considered a contract option. FY15-FY16 12 month task. 4.4.2 The Contractor shall survey, investigate, produce, evaluate, fabricate, assemble, characterize, and demonstrate new alternative solid state lasers for operation at the ERADS Project 1 to 3 THz frequency range. The goal of this task is to assess the potential for using the latest solid state lasers as a primary radar source in the ERADS Project compact ranges, while maintaining the integrity of the radar's output beam quality, stability, and performance. Specifically, the Contractor shall: 4.4.2.1 Survey and identify the latest technologies for producing improved solid state lasers for use in the ERADS Project 1 to 3 THz frequency range. Assess these technologies and evaluate their potential for improving THz frequency sources. Document and provide recommendation of most promising technology. This specific task will be considered a contract option. FY11-FY12 12 month task. 4.4.2.2 Investigate and evaluate customized optimum coupling from Quantum Cascade Lasers (QCL) or alternate promising devices for producing improved primary sources for use in the ERADS Project 1 to 3 THz frequency range. Perform a detailed assessment of this technique/capability, and evaluate its potential for operation in the ERADS Project radars. This specific task will be considered a contract option. FY12-FY13 12 month task. 4.4.2.3 Survey and plan the fabrication and/or acquisition of a latest technology solid state laser prototype, such as a QCL, for use as a Local Oscillator (LO) in the ERADS Project radar systems. Characterize and evaluate this laser's operating parameters, stability, and reliability. Compare these parameters with those of other LO sources used in FIR operational radar systems. This specific task will be considered a contract option. FY13-FY14 12 month task. 4.4.2.4 Produce, procure, fabricate, assemble, and demonstrate a customized prototype innovative FIR frequency solid state laser LO, such as a QCL, based on the most promising latest technology. Optimize the operating capability of the laser with particular attention paid to the output beam quality, stability, and power level. Establish and evaluate the operating parameters of this optimized solid state laser and determine its reliability. This specific task will be considered a contract option. FY14-FY15 12 month task. 4.4.2.5 Based on the latest technology solid state laser prototype, such as QCL; produce, procure, fabricate, assemble, and demonstrate a module solid state laser based LO for a radar transceiver at the primary FIR frequency of an ERADS Program radar system. Optimize the operating capability of this transmitter and perform iterate modifications if necessary. Deliver demonstrated LO module to ERADS Project for evaluation by ERADS Project in a test-bed radar system. This specific task will be considered a contract option. FY15-FY16 12 month task. 4.4.3 The Contractor shall investigate, produce, assemble, characterize and evaluate: customized components and subassemblies based on existing and latest alternative MM and SMM-Wave technologies for potential operation as local oscillators/sources/multipliers/amplifiers in the ERADS Project GHz to THz test-bed facilities and compact range systems, in the future, as yet to be determined, as may be required, in support of the ERADS Project and other related NGIC/DOD mission defined requirements. This specific task may be exercised multiple times in each year of the contract, to be negotiated at the time of exercise. (Undefined) 4.5 MM and SMM-WAVE SUPPORT SYSTEMS: The Contractor shall investigate, study, produce, fabricate, characterize, and demonstrate customized prototype state-of-the-art directly related systems/capabilities/technologies required to support the continued upgrades and enhancements needed for advancing SMM-Wave radar transceivers and subsystems for applications in the ERADS Project radars. Advancements in micro-machining capabilities and/or techniques required for the production and fabrication of ERADS Project radar components such as MM and SMM-Wave-guides, structures for integrated circuits, and supports for focal plane arrays shall be investigated, produced, characterized, fabricated, and demonstrated. Advancements in Micro-Electro Mechanical Systems, (MEMS) shall be investigated, produced, characterized, fabricated, and demonstrated as potential THz integrated 'switches and tuners' for use in ERADS Project radar components for enhancing transceiver performance and THz focal plane imaging array fabrication. Specifically, the Contractor shall: 4.5.1 The Contractor shall investigate, produce, characterize, and evaluate, micro-machining techniques, methods, and other capabilities to fabricate and deliver customized wave-guide housings/assemblies/modules, integrated circuits and supports for focal plane arrays for operation at 160 GHz to 1.6 THz used in the ERADS Project compact radar ranges. Special emphasis should be placed on achieving increased performance at the 1 to 3 THz output frequency range to include but not be limited to improved antenna patterns, bandwidth and power. Modular devices shall be fabricated as replacements and delivered to the ERADS Project for evaluation in a test-bed radar system. Specifically, the Contractor shall: 4.5.1.1 Produce, acquire, fabricate devices, components and equipment in order to investigate, evaluate, and establish the best silicon micro-machining techniques for assembling properly aligned and repeatable FIR frequency wave- guide housings/assemblies/modules needed for integrating with transceiver components, such as horns and waveguides, for operation in the ERADS Project radar's output frequency range of 160 GHz to 3 THz. Investigate and establish processes for fabrication of customized micro-machined couplers, filter structures and backshorts for THz operation in integrated modular radar components. Produce, evaluate, assemble, characterize and demonstrate a customized advanced capability process for fabricating improved silicon based wave-guide housings. This specific task will be considered a contract option. FY11-FY13 18 month task. 4.5.1.2 Produce, assemble, and fabricate advanced micro-machined wave-guide housings/assemblies/modules for operation in the ERADS Project radar's 1.6 THz frequency range. These wave-guide housings should be made to address cooling of the mounting blocks to cryogenic temperatures issues for potential application with HEB or other types of superconducting receiver elements. Evaluate and document the operational capabilities of these advanced units. This specific task will be considered a contract option. FY12-FY13 12 month task. 4.5.1.3 Produce, acquire, fabricate devices, components and parts in order to investigate and evaluate micro-machining techniques for fabricating customized advanced circuit type assemblies, such as six-port receivers and focal plane arrays, for transceiver modules applications in the ERADS Project radar's output frequency range of 160 GHz to 3 THz. Produce, assemble, characterize and demonstrate a capability for fabricating advanced FIR circuits for ERADS Project radar subassemblies. This specific task will be considered a contract option. FY13-FY15 18 month task. 4.5.1.4 Investigate and evaluate the latest micro-machining techniques for fabricating FIR frequency wave-guide housings/assemblies/modules and other subassemblies for operation in the ERADS Project radar's output frequency range of 160 GHz to 3 THz. Emphasis should be place on new processes that will facilitate ease of use, fabrication of finer features, and reduced wave- guide losses. This specific task will be considered a contract option. FY14-FY15 12 month task. 4.5.1.5 Produce, fabricate, assemble, and test a customized micro-machined FIR subassembly mixer module and/or other transceiver component (as determined by NGIC) for demonstration at the ERADS Project radar's output frequency range of 1 to 3 THz. Demonstrate and document the operation and capabilities of this advanced prototype module. Deliver prototype module for evaluation by the ERADS Project in a test-bed radar facility. This specific task will be considered a contract option. FY15-FY16 12 month task. 4.5.2 The Contractor shall investigate, establish fabrication process, produce, fabricate, assemble, characterize, and document parameters based on advanced Micro-Electro Mechanical Systems (MEMS). Apply such capability to produce devices, components, methods, and other systems, for building and delivering prototype THz wave-guide based parts for operation at 160 GHz to 1.6 THz used in the ERADS Project compact radar ranges. Special emphasis should be placed on achieving increased performance components at the 1 to 3 THz output frequency range to include but not be limited to electronically-tunable backshorts, MEMS controlled switch array, and phase-shifter. Customized advanced prototype devices shall be demonstrated and delivered to the ERADS Project for evaluation in a test-bed radar system. Specifically, the Contractor shall: 4.5.2.1 Produce, acquire, fabricate devices, components, and parts in order to investigate, evaluate, and assess the applicability of MEMS switches and tuners to ERADS Project radar system applications and establish a customized fabrication process for producing these components for wave-guide circuit operation in the ERADS Project radar's output frequency range of 160 GHz to 3 THz. Generate component specifications for THz wave-guide based MEMS switches and tuners for integrated modular radar receiver applications. Establish a process for fabricating these devices and methodology for characterizing and assessing their performance. Demonstrate, assess and refine the fabrication process. This specific task will be considered a contract option. FY11-FY13 18 month task. 4.5.2.2 Investigate, evaluate, and assess the applicability of producing MEMS switch based tunable Hadamard Mask components for ERADS Project imaging array radar system applications and fabricate a test-bench customized prototype device. Evaluate, demonstrate, and document the operational characteristics of this device and propose a fabrication methodology for device production. This specific task will be considered a contract option. FY12-FY13 12 month task. 4.5.2.3 Produce, acquire, fabricate devices, components and parts in order to investigate and establish a fabrication process for building MEMS tunable Hadamard Masks for applications in ERADS Project radar's output frequency range of 160 GHz to 3 THz. Optimize a fabrication process to realize MEMS switch array tuning capabilities to maximum yield while minimizing signal losses and optimizing coupling through the mask. This specific task will be considered a contract option. FY13-FY15 18 month task. 4.5.2.4 Produce, fabricate, assemble, characterize and demonstrate a prototype MEMS wave-guide switch and tunable phase-shifter for integration in a receiver circuit as required for the ERADS Project radar's output frequency range of 160 GHz to 3 THz. Emphasis should be place on achieving components that can be used in THz receivers and/or sources. This specific task will be considered a contract option. FY14-FY15 12 month task. 4.5.2.5 Produce, fabricate, assemble, document parameters, and deliver MEMS based wave-guide switch and tunable phase-shifter backshort modules for evaluation and operation by ERADS Project in a test-bed radar facility. Characterize and assess the performance of these MEMS wave-guide components and optimize operation. This specific task will be considered a contract option. FY15-FY16 12 month task. 4.5.3 The Contractor shall survey, investigate, produce, fabricate, characterize and document parameters, customized prototype state-of-the-art directly related systems/capabilities/technologies required to support the continued advancement and enhancements of specialized components needed for SMM wave radar transceivers and subsystems in the future, as yet to be determined, as may be required, in support of the ERADS Program and other related NGIC/DOD mission defined requirements. This specific task may be exercised multiple times in each year of the contract, to be negotiated at the time of exercise. (Undefined) SECTION 5 DELIVERABLES/CDRL-PWS Paragraph Cross-Reference 5.1 CDRL A001 - All Specific Tasks Exercised 5.2 CDRL A002 - All Specific Tasks Exercised 5.3 CDRL A003 - Contract Requirement, includes a presentation of the results and status from all Specific Tasks exercised and active. 5.4 CDRL A004 - 4.2.1.1, 4.2.1.5, 4.2.3.2, 4.2.4.5, 4.3.1.3, 4.3.1.4, 4.3.1.5, 4.3.2.3, 4.4.1.2, 4.4.1.3, 4.4.1.5, 4.4.2.5, and 4.5.1.5. 5.5 CDRL A005 - 4.1.1, 4.2.1.3, 4.2.2.4, 4.2.2.1, 4.2.2.3 4.2.2.2, 4.2.4.1, 4.2.4.2, 4.3.1.1, 4.3.1.2, 4.3.2.1, 4.3.2.4, 4.3.2.5, 4.4.1.1, 4.4.2.1, 4.4.2.2, 4.4.2.3, 4.5.1.1, 4.5.1.3, 4.5.1.4, 4.5.2.1, 4.5.2.2, and 4.5.2.3. 5.6 CDRL A006 - 4.1.2, 4.1.3, 4.1.4, 4.2.1.2, 4.2.1.4, 4.2.2.5, 4.2.2.3, 4.2.3.3, 4.2.3.4, 4.3.1.5, 4.3.2.2, 4.4.1.4, 4.4.2.4, 4.5.1.2, 4.5.2. and 4.5.2.5. Additional Information: APPLICABLE_DOCUMENTS Attachment A: DD Form 1423, Contract Data Requirements List. Attachment B: DD Form 1662, DOD Property in the Custody of Contractors. Notes on Government Furnished Property (GFP) Government Furnished property will be provided in accordance with a DD-1662, DOD Property in the Custody of Contractors, form submitted by UVA on 15 SEP 11 for Contract W911W5-06-C-0001. This form shall contain a complete listing of all the accountable Government property purchased under all previous similar Contracts and that provided to UVA by the Government under this Contract. Notes on PWS Specific Tasks types and periods of performance. Total Number of Specific Tasks: 65 Total Number of Undefined Tasks: 5 (4.1.5, 4.2.4, 4.3.3, 4.4.3, and 4.5.3) Total Number of Procurement Type Specific Tasks: 0 12-Month Period Non-Severable Specific Tasks: 51 15-Month Period End Item Specific Tasks: 2 (4.2.2.2 and 4.2.3.1) 18-Month Period End Item Specific Tasks: 12 (4.2.1.1, 4.2.1.2, 4.2.2.4, 4.2.3.3, 4.3.2.2, 4.3.2.3, 4.3.2.4, 4.4.1.3, 4.5.1.1, 4.5.1.3, 4.5.2.1, and 4.5.2.3)
 

Web Link

FBO.gov Permalink
(https://www.fbo.gov/spg/USA/INSCOM/DASC02/W911W5-11-R-0004/listing.html)
 

Place of Performance

Address: National Ground Intelligence Center ATTN: IANG-CS-LO/MS204, 2055 Boulders Road Charlottesville VA

Zip Code: 22911-8318
 

Record

SN02444222-W 20110512/110510234732-38296e5148d1f6d51759ad90c7f964e7 (fbodaily.com)
 

Source

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