1 / 7

Core ACCS LOC1 A challenging program in all respects

Core ACCS LOC1 A challenging program in all respects. Test Core System Requirements tested 3700 Verified 200 ~ remaining Over 11300 Software Requirements verified Real Time ~ 7600 Non Real Time ~ 3700 All HWCI and CSCI implemented HW Upgrade, Solaris 10

cyrah
Download Presentation

Core ACCS LOC1 A challenging program in all respects

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Core ACCS LOC1 A challenging program in all respects Test • Core System Requirementstested • 3700 Verified • 200 ~remaining • Over 11300 Software Requirements verified • Real Time ~ 7600 • Non Real Time~ 3700 • All HWCI and CSCI implemented • HW Upgrade, Solaris 10 • Secured and redundantenvironment • 12 strings in factory • 15Databases for MTIF and sites • System version installed weekly on 12 strings • 10000regressionsteps in 2010 for 6 system versions (factory + sites) • Integrationcontinuous in factory and 6 sites Engineering • Over 3900 Core System Requirements • Core System Hardware ~1400 • Core System Software ~ 2500 • About 12600 Software Requirements • SW Sizing estimates : 13000 KSLOCs (13+ million lines of software) • Real Time 75% • Non Real Time 25% • System Design broken down in 10 HWCIand9 CSCI • About 150 Software COTS NATO UNCLASSIFIED

  2. ACCS Validation Sites CAOC Uedem ARS Glons & STVF DCAOC Uedem CARS Lyon Mt. Verdun DACC PoggioRenatico CARS Poggio Renatico NATO UNCLASSIFIED

  3. Sep 2009 STI-1 1st version Main events towards fielding Dec 2008 FST • 1st version was successfully tested in Factory (Factory System Test) in 2008 and in live environment [System Test I-1 (STI-1) at System Test and Validation Facility (STVF) located in the NPC] in 2009. Jun/Dec 2013 STII STIII Apr 2014 June 2014 PSWA Mar 2013 STI-2 Sep 2011 FST BU1 2nd version (BU1) • Major change integrated in the contract in 2007: Block Upgrade 1 (BU1) (mainly in CAOC functionalities changes) • ACCS BU1 was successfully tested in factory in September 2011 and in live environment System Test I-2 at STVF completed in March 2013 (with test under simulated peak load conditions) • Following test performed & completed in 2 Validation Nations (BE, GE) and on-going in the two remaining ones (FR & IT) • Final tests performed in multi-site configuration: System Test III Up to Provisional Software Acceptance forecasted mid 2014 NATO UNCLASSIFIED

  4. Jul 2013 FCSE Oct 2011 Spiral1 Award • 1st IOT&E STI-1 in 2009 revealed shortfalls => improvements in Air Mission Control, workflow & HMI grouped in a Spiral 1 enhancement. • Spiral 1 awarded in October 2011 successfully tested in factory in Jul 2013 will be merged with BU1 for final test STIII up-front PSWA Main events towards fieldingOperational Evolution Sep 2009 STI-1 FB 1. Operational requirements evolve: • Operational needs regularly expressed by SHAPE (roadmap towards ACCS IOC) like JTS interface, JCHAT capability • Initial Operational Tests & Evaluations (IOT&E) after each live environment System Tests on site bring potential new requests Jun 14 PSWA Mar 2013 STI-2 BU1 BU1 In Service Support Spiral 2 • Work under preparation to introduce JTS interface and JCHAT capability towards ACCS IOC • Potentially Shortfalls from future IOT&Es (STI-2, STII & STIII) might also lead to additional Spirals NATO UNCLASSIFIED

  5. Jul 2013 FCSE Oct 2011 Spiral1 Award Main events towards fieldingTechnical Evolution Sep 2009 STI-1 FB Jun 14 PSWA Mar 2013 STI-2 BU1 BU1 In Service Support Technicalevolutions 2. Meanwhile technology is also evolving • Communication means: from point to point connectivity to networked connectivity (significant communications expenses savings) => NATO General Segment System (NGCS) NATO secure communication network contracted mid 2012. • Communication standard protocol: commercial world evolving towards so-called Everything over the Internet => contracted mid 2012. • Radar Network connection (RADNET) contracted by mid 2012. Those technical evolutions will be integrated within the appropriate timeline (before PSWA or during In Service Support through replication contract activities). NATO UNCLASSIFIED

  6. IOT&E DT&E ACCS LOC1 Test Process Test &Evaluation • Initial Operational Test & Evaluation (IOT&E) • IOT&E evaluates that the system is operationally effective and suitable • IOT&E is conducted by AirC2PO&S with Contractor support • Developmental Test & Evaluation (DT&E) • DT&E verifies that the system performs as required in its intended environment • DT&E is conducted by ACSI and its Subcontractors / Partners NATO UNCLASSIFIED

  7. Sequence of Test events ü FST MTIF DryRun Formal Test FST Be FST BU1 FST Ge FST DR FT FST Ita DR FT FST Fra FAT Spiral 1 DR FT DR FT STIII STI-2 STVF PSA STI IOT&E IOT&E FT DR DR FT DR FT IOT&E ü STI-1 ü STIII STII PSA Validation Sites ARS Glons - Be Dry-Run FT IOT&E DR FT IOT&E CAOC Uedem - Ge IOT&E Dry-Run FT DR FT IOT&E DCAOC Uedem - Ge IOT&E Dry-Run FT DR FT IOT&E ST II / III CARS LMV - Fr IOT&E Dry-Run FT DR FT IOT&E CARS PR - It Dry-Run FT IOT&E DR FT IOT&E ü ü ü STII-2 STII-1 IOT&E DARS-1 DR FT DR FT PSA STII-2 DR FT IOT&E DARS-QRP NATO UNCLASSIFIED

More Related