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1PFP MSR, 3/15/2011
Particles and Fields PackageMonthly Status Review (MSR)
March 15, 2011
Dave Curtis, PFP PM
2PFP MSR, 3/15/2011
SSL Contracting Status
• Provided estimated cost (in Phase E) for 5 week transition timeline
3PFP MSR, 3/15/2011
Schedule Status
• EMs have made a lot of progress this month– All EM PWBs in test but ~2 (HVPS boards, in fab)– SEP, LPW, SWEA. MAG mechanical in assembly– STATIC TDC complete acoustics– SWIA/STATIC analyzers final parts out to fab this month
• EM Package I&T starts March 22 with LPW– Pushing to complete before CDR– Instrument calibrations don’t complete till after Package I&T
• Adjusted flight electronics test schedule to reflect reality of limited pool of test engineers– Prioritized testing
• No change to critical path this month– 15 weeks margin to delivery– Achieved by starting flight fab prior to EM test completion for selected
subsystems• Working to improve post-CDR schedule.
– Adjust schedule to take advantage of changes to flight software Build 1 design
• includes less diagnostic code, more code that is useable for Build 2• should get FSW off critical path, improve margin +2-3 weeks.
4PFP MSR, 3/15/2011
Manpower
• RBSP-EFW instrument still not delivered – this month?– All of the people we need have transitioned 100%– Down to final thermal vac test
• Solar Probe Plus is starting to impact a few team members– Adding two new people around the time of CDR to make up for
one retirement and people split with SPP• One from RBSP, one from JDEM
• We are still under planned FTE rate– but climbing a bit– Mostly due to people splitting time between projects– Plan was based on conservative assumptions about covering
people
5PFP MSR, 3/15/2011
Accomplishments
• All PWBs layed out, most loaded and in test– see below
• On schedule for start of Package integration– LPW/PFDPU 3/22– PFDPU/Spacecraft 4/5
• Most EM Mechanical parts are in fab, many delivered– MAG sensor Assembled– SEP, LPW boom, STATIC TDC, SWIA & STATIC MCP mounts in
assembly– Some part-level design work still in progress on SWIA/STATIC
• Last analyzer parts out for fab this month
– STATIC EM TOF Acoustics Test complete successfully– SEP EM attenuator started life test
• SWEA FM analyzer mechanical parts delivered to SSL for plating– Forwarded to the plating house
• More in instrument sections…
6PFP MSR, 3/15/2011
Ongoing Work
• Supporting Project planning process• Supporting EMC, Payload, SDT working groups
• Completing EM board testing• Completing SWIA/STATIC EM mechanical part drawings,
getting parts fabricated• Start PF Package EM I&T, LM EM I&T• Prepare for CDR
7PFP MSR, 3/15/2011
EM Status
REG1
DCB1
REG2
DCB2
IIB
SEP1
MAG1
LPW BEB
LPW DFB
LPW 1
EUV
MAG 1
STATIC
SWEAtt
SWIA
PFP
Flash FPGA***
LVPS
LVPS
DIG
Sweep
Preamp + MCP
Anode
LVPS
ACC + MCP
Anode
TDC
Preamp
DAP
SEP1
DFE
DFE
MAG HTRT
Preamptt
Anode
tt
HVPStt
PFDPU
Flash FPGA***
Flash FPGA***
Preamp
Sweep
DIG
DIG
Preamp
Required for I/F Testing at LM
In Lay-out
In Fab / Assembly
In Test
Integrated to chassis
Not Required for EM
Ready for Test
Test Completed
Ready to Integrate
8PFP MSR, 3/15/2011
PFP RFA Status
Review Actions Closed %SWEA Peer 20 20 100%
Mechanical Peer 8 8 100%Analyzer Peer 11 11 100%Power Peer 0Digital Peer 4 4 100%FSW Peer 0LPW Peer 11 11 100%MAG Peer 5 5 100%
LPW Mech Peer 7 7 100%
IPDR 6 6 100%
Totals 72 72 100%
All Done!
9PFP MSR, 3/15/2011
Trades, Issues
• HV801 issue still open– Two options: Amptek HV801, Micropac 66353– Amptek delivered some EM HV801s
• Have parts for EM– Current plan is to buy HV801s from LADEE NMS, who has parts
on order they no longer need– Also have an offer of some extra parts from LASP
• Working on an analysis to decide if the PFDPU mechanical design needs to be augmented to support the PWBs to avoid excessive displacements in vibe– MAG EM PWB has option for a center support, others do not– Looks like we can probably eliminate center support, analysis
about ready for review– Analysis Submitted to GSFC– Comparing analysis technique to recent flight history.
10PFP MSR, 3/15/2011
Thermal Status
• Updated Thermal Model delivered– being used by LM to generate thermal environments, due ~3/18
• Provided boom deployment heater power requirement– last of the heater requirements
• Also waiting on deep dip case– Also promised by 3/18
11PFP MSR, 3/15/2011
Top Risks
P-21 new
MAVEN PFP RISK MANAGEMENT Chg RANK ID Approach TITLE
55 10 15 20 25
1 P-17 Mitigate Parts Qualification
44 8 12 16 20
2 P-01 Mitigate SSL Manpower
33 8 9 12 15
3 P-20 Mitigate PFDPU Connectors
22 4 6 8 10
4 P-21 Mitigate PFP to Spacecarft ICD
11 2 3 4 5
5 P-18 Watch Magnetics Implementation
1 2 3 4 5
Criticality Approach
High
Medium
Low
LIKELIHOOD
Improved
Worsening
Unchanged
New this month
Mitigate
Watch
Accept
Research
CONSEQUENCES
L * C Trend
*
P01
P18
P20
P21
P17
*
12PFP MSR, 3/15/2011
Risks List
ID Title Type P I Crit Risk Statement Impact Term Plan Approach Comments
P-01 SSL ManpowerProject
Execution3 2 M
Delays in RBSP leads to manpower conflicts at SSL
Schedule erosion, cost to recover
Near Term
Hire new people to take routine tasks off key personnel
Mitigate Review in March 2010Add extra Power Converter person 1/2010Add extra ME 2/2010Add extra QA 8/2010Add extra Tech & Test Engineer 1/2011Tap into campus technician pool 2/2011
P-07Delayed LPW
Boom Deployment
Mission Performance
1 3 L
Waiting till after MOI to deploy LPW booms results in them sitting undeployed for over a year, increasing the risk of deployment failure
Potential severe degradation of LPW measurement
Far Term
Investigate if LPW booms can be deployed early
Research Early deployment of LPW booms reduces this risk. Actual risk of failure is very low. Risk that we may be asked to do an expensive verification is moderate
P-14 HV801 ProblemProject
Execution1 3 L
If HV801 not available a redesign would be required to use alternate (larger) parts
Schedule, Mass Near Term
Watch what programs ahead of MAVEN do; look into alternate parts
Mitigate Micropak alternate part in test. EM parts found, FM parts identified
P-17Parts
QualificationProject
Execution3 3 M
If parts fail qualification then system would have to be redesigned for alternate (which may also have to be qualified and may have lower performance)
Schedule, Cost, Performance
Near Term
Start parts qualification as soon as possible (but delayed to FY11 for funding)
Mitigate First round of parts radiation testing started. SEL test results look good
P-18Magnetics
ImplementationMission
Performance1 4 L
If unanticipated magnetics issues are found on observatory late (or not found at all) then MAG instrument performance could be degraded
Magnetics [MRD84]
Mid Term
Magnetics Working Group to monitor implementation (materials lists, etc)
Watch
P-19Electrostatics
ImplementationMission
Performance1 4 L
If unanticipated electrostatic issues are found on observatory late (or not found at all) then LPW, SWEA, SWIAm, instrument performance could eb degraded
Electrostatics [MRD 83]
Mid Term
Magnetics Working Group to monitor implementation (materials lists, etc)
Watch
P-20PFDPU
ConnectorsProject
Execution3 2 M
If fragile flight PFDPU connectors damaged then PFDPU schedule will be delayed by rework
Schedule Mid Term
Look for ways to protect pins - connector savers? Working on a plan
Mitigate
P-21PFP to
Spacecarft ICDProject
Execution2 3 L
If the instrument FSW interpretation of the ICD does not match the Spacecraft interpretation then the instrument will not work at integration, requiring a PROM change to fix (and PFDPU requal)
Schedule Far Term
Work with LM on clarifying the ICD.
Mitigate
13PFP MSR, 3/15/2011
PFP Mass
• Small change to MAG sensor and EUV harness CBE this month
• Submitted CCR262 to reallocate NTE amongst PFP– See ‘New NTE column)
Instrument QuantityCBE Each
[kg]CBE
Total [kg] Cont. (%)Total [kg] (CBE+cnt)
New NTE [kg]
Particles and Fields 23.74 15% 27.19 27.19LPW Total 6.18 23% 7.62 7.09
LPW Booms 2 5.150 28% 6.580 5.909EUV Assembly 1 1.030 1% 1.040 1.182
STATIC Total 2.87 11% 3.19 3.29SWEA Total 1.82 6% 1.94 2.09SWIA Total 2.59 1% 2.62 2.97SEP Total 1.27 20% 1.52 1.45MAG Total 0.84 -7% 0.78 0.96PFDPU Total 5.89 -1% 5.85 6.77PF Intra-Instrument Harness Total 2.29 61% 3.67 2.56
14PFP MSR, 3/15/2011
Mass Tracking Chart
PFP Mass Trend
10.00
15.00
20.00
25.00
30.00
35.00
10/1/2009 12/1/2009 1/31/2010 4/2/2010 6/2/2010 8/2/2010 10/2/2010 12/2/2010 2/1/2011
Date
kg
10%
15%
20%
25%
30%
35%
Mass CBE, kg
Mass NTE, kg
Mass Margin %
15PFP MSR, 3/15/2011
PFP Power
• Small increase in EUV heater power• Small decrease in LPW operational power.
Instrument CBE [W] Cont. (%) NTE [W] CBE [W] Cont. (%) NTE[W] CBE [W] Cont. (%) NTE[W]Particles and Fields
Off (heater only) 0.00 0.00 18.56 9% 20.31 18.56 9% 20.31Standby 9.30 35% 12.52 15.35 8% 16.62 24.65 18% 29.14Nominal 18.02 24% 22.29 17.32 12% 19.34 35.34 18% 41.63
Peak 30.92 20% 37.01 101.34 14% 115.70 132.26 15% 152.71Orbit Average 18.12 24% 22.39 17.32 12% 19.34 35.44 18% 41.73
Orbit Average:LPW 3.71 48% 5.49 0.00 0% 0.00 3.71 48% 5.49EUV 0.16 15% 0.18 2.30 -10% 2.07 2.46 -8% 2.25STATIC 4.39 19% 5.21 1.91 15% 2.20 6.30 18% 7.41SWEA 1.07 15% 1.24 2.95 15% 3.39 4.02 15% 4.63SWIA 2.05 22% 2.50 3.08 15% 3.54 5.13 18% 6.04SEP 2.60 -14% 2.24 5.48 15% 6.30 8.08 6% 8.54MAG 2.36 21% 2.84 1.60 15% 1.84 3.96 18% 4.68PFDPU 1.78 51% 2.69 0.00 0% 0.00 1.78 51% 2.69
Operational Heater Total
16PFP MSR, 3/15/2011
PFP Power Trend
PFP Power Trend
0.00
5.00
10.00
15.00
20.00
25.00
30.00
35.00
40.00
45.00
10/1/2009 12/1/2009 1/31/2010 4/2/2010 6/2/2010 8/2/2010 10/2/2010 12/2/2010 2/1/2011
Date
W
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
Power CBE, W
Power NTE, W
Power Margin %
17PFP MSR, 3/15/2011
PFP Data Rate
• Per 2009-6-9 allocations from Bruce
Rate [bps]Particles and FieldsLPW/EUV 717.0STATIC 2000.0SWEA 600.0SWIA 604.0SEP 160.0MAG 660.0PFDPU 30.0
Total 4771.0
Instrument
18PFP MSR, 3/15/2011
Requirements Verification Status
• Submitted a CCR (265) to update PFP Functional Requirements (Level 3)– some old requirements need updating
• Once updated, will start mapping into Verification matrix• Need DOORS verification output for ICD and ERD to
include in the matrix– ERD and ICD still evolving– When do we snapshot these?
• Boot software verification has started– against software level 5 requirements, which link back to FRD
and ICD.• STATIC TOF EM Acoustics test complete
– Waiting on analysis of foils– Will repeat on full EM and FM
19PFP MSR, 3/15/2011
MAVEN Magnetometer Status
March 2011
Connerney, Sheppard, Schnurr, Oliversen, Espley, etc.
20PFP MSR, 3/15/2011
GSFC/MAG - Accomplishments Last Month
• EM sensor assembly and pigtail completed.
• GSE sensor harness fabrication complete.
• Hypertronics connectors received; breakout PWBs assembled.
• Draft MAG Flight Software Requirements Specification (for PFDPU).
• Completed parts stress analysis for MAD board and ACHE board
( MIS MAVEN-MAG-ANYS-0020, MAVEN-MAG-ANYS-0018)
• EM magnetometer analog/digital (MAD) board assembly completed.
• EM Magnetometer board tuned w/nominal scale factors and in test.
• Completed Parts Control Board meeting (March 2, 2011), parts list
dispositioned (XX parts of XXX total) pending meeting minutes.
• Initiated radiation testing plans for lot of MIL spec CD4066 quad
bilateral switches.
• Completed rev 0 Aeroflex FPGA design; ready to burn.
21PFP MSR, 3/15/2011
GSFC/MAG - Accomplishments Last Month(s)
EM Sensor Assembly
A/C HeaterElectronics (ACHE) Board
MAG Analog and Digital (MAD) Board
22PFP MSR, 3/15/2011
GSFC/MAG Near Term Plans & Open Issues
• Complete MAG software requirements draft and iterate w/UCB.• Bench test EM MAD board with FPGA logic installed, UCB
simulator.• Initial MAG Test Site tests to determine MAD board scale factor
resistors. • Temperature cycle MAD board and thermal stability tests.• Continue winding FM sensor ring cores, feedback/sense bobbins,
per technician availability; fabricate sensor assembly terminal boards.
• Draft worst case analysis of MAD board.• Schedule Peer Review (tentative: May 5, 2011 @ GSFC).• Workload: RBSP box level thermal vac @ APL, Juno system
thermal vac @ LM
23PFP MSR, 3/15/2011
MAVEN PFP SWIA Status
March 2011
Jasper Halekas, SWIA Lead
24PFP MSR, 3/15/2011
SWIA Progress
• Electrical Progress– Anode board tested– Digital board tested– Preamp/MCP loaded on preamp half
• Testing started, testing with digital next week– LVPS mostly loaded, starting test– Sweep PWB fabricated, being loaded– Sweep and MCP HV waiting for shield walls, cores
• Mechanical Progress– E-Box parts out for fabrication– Analyzer design finished, parts drawings in progress, final review
before sending out for fabrication next week– Attenuator motor design nearing completion– MCP MGSE and MCP clamp stack fabricated and assembled– Manipulator MGSE fixture design in progress (for EM Cal)
• Detector Progress– MCP testing starting as soon as Hypertronics connectors arrive
(scheduled March 14th ship, overnight delivery)
25PFP MSR, 3/15/2011
SWIA Issues
• Staffing/Schedule– Up to full speed on staffing– Trying to make up delays due to RBSP ME conflict and limited
technician time– Currently planning to integrate and test electronics with PFDPU
before testing with analyzer to mitigate schedule delay
26PFP MSR, 3/15/2011
SWIA Hardware
MCP Test MGSEFixture
Anode board w/ MCP Clamp Stack(channel plate notloaded, 5” diameter)
27PFP MSR, 3/15/2011
MAVEN PFP SWEA Status
March 2011
Dave Mitchell, SWEA Lead
28PFP MSR, 3/15/2011
SWEA Status, EM - CESR
• Mechanical (FM)– All mechanical parts fabricated and controlled
– Hemispheres and top cap sent to Switzerland for Cu2S coating
– All sensor external parts at SSL for black nickel coating
• Electrical (EM)– Board assembly started – completion by mid-April
Amplifier board
SWEA EM disassembled to change STEREO parts for MAVEN parts
29PFP MSR, 3/15/2011
SWEA Status, EM - SSL
• Mechanical– Pedestal fabrication and test fitting
complete, ready to assemble when boards available.
– Rest of SSL EM refurbished and tested.
– Purge port to be clocked 25o on FM (no impact to EM or to CESR design)
• LVPC– Fab complete, Tested.
• Digital– Fab complete, Tested.
• SSL EM Ready to assemble
SWEA Digital
Old Position
New Position
Purge Port Redesign
30PFP MSR, 3/15/2011
MAVEN PFP STATIC Status
March 2011
Jim McFadden, STATIC Lead
31PFP MSR, 3/15/2011
STATIC Accomplishments
• Carbon foils mounted in TOF units survive acoustic test • Carbon foils floated successfully from mica slides - improves yield• Implemented automated software for analysis of carbon foil defects• Completed design for carbon mounting fixtures – design prevents small
bits of carbon foil from attaching to the bottom of frame during mounting• EM Digital board FPGA program loaded – ready for digital board test• EM TDC board loaded (see photo) • EM preamp simulated with Spice to determine component value
changes needed to reduce gain.• EM Anode, Preamp and TDC boards in test• EM LVPS loaded – ready for test• Mechanical electronics box fabricated/assembled (see photos)• 3 TOF units assembled (see photos) and acoustic tests performed• Clean-room (320) in service – used during TOF analyzer assembly• Helmholtz coil material purchased for fabrication template• 3-axis manipulator for calibration being tested and tuned
32PFP MSR, 3/15/2011
STATIC EM TDC
33PFP MSR, 3/15/2011
STATIC TOF Assembly for Acoustics
34PFP MSR, 3/15/2011
STATIC Anode Assembly for Acoustics
35PFP MSR, 3/15/2011
STATIC EM Assembly for Acoustics
36PFP MSR, 3/15/2011
STATIC Open Issues
• Carbon foil frames need to be remounted in TOF units for vibration test.• Mounting fixtures for handling flight carbon foil frames need to be
fabricated before additional EM carbon foils are loaded• Preamp part changes needed to reduce the gain for optimal dynamic
range• EM HV Sweep partially loaded – waiting on shield boards (in fab)• EM 15kV-MCP board partly loaded - waiting on MCP “stack stick”
multiplier to return from paryline coating• Waiting on second EM preamp with component changes to optimize
gain (improve dynamic range)• Analyzer and mechanical attenuator still in development• Manipulator fixtures for calibration in development• Some test harnesses and test cables still on order• New calibration chamber ordered – delivery late May• Additional equipment for clean-room 320 ordered (cabinets, tables, etc) • Clean-room portable sink in development
37PFP MSR, 3/15/2011
MAVEN PFP SEP Status
March, 2011
Davin Larson, SEP Lead
38PFP MSR, 3/15/2011
SEP Accomplishments2011-03-09
• Mechanical attenuator tests started. – First testing using GSE (MISG) – GSE working – but has occasional dropouts (see below).– Initial assembly had micro-switch mis-aligned which resulted in failure on first overnight test
because attenuator got caught in a position with both switches open.– Micro-switches re-aligned, ready for retest.– Resolved questions about plunger force.– Performed 24 hour (1000 cycle) test in air. Successfully completed 972/1000 cycles. Failure
determined due to loss of TCP/IP connection of MISG – not due to ETU.– Actuator duration vs voltage test in air performed.– First life cycle test in vacuum was incomplete due to MISG disconnects. (~2000 cycles were
completed)– Second life cycle test started on 03/09
• ETU Silicon detectors are diced and tested. However delivery is overdue (Craig Tindall has been sick). Flight detectors are a few weeks away.
• DAP board– Stuffed with parts (2 channels only) All parts now installed. – Actel programing delivered, burned and inserted.– Testing underway:
• Discovered that test pulsers is NOT operating properly due to change from 5V actel to 3.5V actel.• Minor x2 error in pulser frequency discrepancy in FPGA (could just change the documentation)
• All Mechanical parts have arrived. (Baffles finally arrived)• DFE light tight Test box/cable in assembly (rework actually)
39PFP MSR, 3/15/2011
SEP EM Attenuator Testing
ETU#1 Attenuator actuation time(Total resistance = 22+22+4.8 Ohms)
0
100
200
300
400
500
600
700
800
900
20 25 30 35 40
Bus voltage (V) (~10x Vsma)
Str
oke
Du
rati
on
(m
s)
OPEN (after)
CLOSE (after)
Open (Before)
Close (Before)
40PFP MSR, 3/15/2011
SEP Open issues
• Detectors still needed• Test pulser circuitry needs modification• One channel DAC threshold level not working properly –
still under investigation
41PFP MSR, 3/15/2011
MAVEN PFP DCB, Power Converter & GSE Status
March 2011
Dorothy Gordon
Timothy Quinn
Peter Berg
Chris Tiu
42PFP MSR, 3/15/2011
DCB Status (1)
DCB ETU Testing• FLASH Memory Verified
o Both CPU Mode and DMA Mode testedo Bad Blocks for both DCB-ETU #1 FLASH devices logged
• Test Environment Refinedo Simulation and Realtime testing software project consolidated
o Shared source code environment used by ModelSim (FPGA Simulator) and DCB-Monitor (DCBMON) (used for bench-testing and system diagnostics)
o Subsystem tests have been integrated into DCBMONo DCB ETU integrated with the MISG in Instrument Simulator
modeo Instrument commands verified for all 7 interfaceso Next step: Instrument message data reception verification
43PFP MSR, 3/15/2011
DCB Status (2)
DCB ETU Buildo Parts kitted for the second DCB ETU and associated FLASH
Daughter boardo Boards are currently being loaded at Digicom
DCB FPGAo Design of the major FPGA subsystems is completedo Started timing analysis in preparation for Flight FPGA porto Simulation continues in conjunction with target diagnostic
development and verification.
44PFP MSR, 3/15/2011
DCB Test Setups
DCB running GSEOS & FSW Boot Code
(MISG appears next to GSEOS laptop)
DCB running DCB-MON
Serial port based communication provides bench test environment
45PFP MSR, 3/15/2011
GSE Software Status
• Delivered first rev of SEP GSEOS • Delivered first rev of SWEA GSEOS • Added CCSDS wrapper to SEP, SWEA,
SWIA messages– Provides timestamping capability for the MISG
Message Data – Next step: STATIC wrapper development
• Provided support for Instrument and Actuator GSEOS
46PFP MSR, 3/15/2011
Power Converter Status (1)
• REG board – Currently under test – The 28 V, the 3.3V, the 1.5V, the 5.0V, the ±5V are
working and synchronized – The input start-up starts up and the board runs itself after
start up
• In preparation for the upcoming LPW Interface test– The following subsystems need to be verified
• LPW current monitor• Housekeeping addressing• LPW ON commanding
47PFP MSR, 3/15/2011
Power Converter Status (2)
REG ETU under test
48PFP MSR, 3/15/2011
Power Converter Status (3)
• IIB board– IIB ETU has been assembled and all magnetics wound– Board is in test, starting with the LPW sections first
– Secondary side of LPW converters powered-on but will require some transformer turns adjustments to tune output voltages
49PFP MSR, 3/15/2011
Concerns
• S/C Interface late changes– DCB FPGA modifications required to coordinate
with S/C ICD anticipated changes and clarifications
• Schedule is tight– Much testing/analysis remains as we approach
CDR
50PFP MSR, 3/15/2011
MAVEN PFP Flight Software Status
March 1 2011
Peter Harvey
51PFP MSR, 3/15/2011
Boot Status
Interface Documents, Meetings Reviewed updated Spacecraft ICD specification 2/9/2011 S/C requirement to Safe after 3 missed TU’s being removed. Reviewed “PDR ICD Requirements for CLFP” ; NB: infinite-reset loop
IV&V No IV&V changes to Boot requirements this period
FSW Development Added “SafeMe” command to Boot (LM’s request) Boot v1.0 complete
Test Status Boot FSW Test Nearing Completion All Boot Packets are Displayed in RealTime, Hot Buttons installed Had to program EEPROM 1 byte at a time Awaited Confirmation that heritage Python functions will be available Retested with DCB FPGA update revision 06 CMD Rate Test Failed due to “Interface Confusion” in GSE
GSEOS Status: Generally functional though issues internal error messages, and crashes periodically Draft support functions (log, wait) delivered at end of period Needs APID 11 (Memory Loads) Needs Zone Alerts (for compatibility) Limit checking error messages (uses raw values, not converted)
• Dates coming up August - PROM Burn
52PFP MSR, 3/15/2011
Boot Status
NB: PFDPU is off at this moment causing GSE “sync mark” comments
53PFP MSR, 3/15/2011
Operational Status
Interface Documents, Meetings Reviewed updated DFB specification (v 2/10)
Alerted LASP that packet definitions do not meet S/C ICD requirement (32-bit bounds) Drafted detailed driver outline. Reviewed with LASP
Reviewed updated MAG specification(v.2/22) : OK Reviewed updated S/C Early Payload I&T test description
WRITELEDS format uses incorrect command code.
IV&V Revisited IV&V comments w.r.t Operational Implemented all Operational-related IV&V actions (All 32 acted upon)
FSW Development Transferred Boot FSW to Op FSW (e.g. EXEC, CMD, …, PWR) Removed Boot Restrictions (Turn On, etc) Wrote LPW, SSR (Real-Time)
Test Status LPW, SSR in simulation
• Important Dates coming up March 22 – Interface test with LPW April 5 2011 – Interface test with LM
54PFP MSR, 3/15/2011
Metrics Chart
Milestone PDRDescription Apr-10 May-10 Jun-10 Jul-10 Aug-10 Sep-10 Oct-10 Nov-10 Dec-10 Jan-11 Feb-11Product Characteristics
Project Name MAVEN MAVEN MAVEN MAVEN MAVEN MAVEN MAVEN MAVEN MAVEN MAVEN MAVENLanguage C C C C C C C C C C C
Software Domain (FSW) FSW FSW FSW FSW FSW FSW FSW FSW FSW FSW FSWSLOC Expected 9180 9180 9180 9180 9180 9180 9180 9180 9180 9180 9180
SLOC To Date 0 0 771 1645 2841 2841 2841 2841 2841 3636 9089Software Progress
Major Events Planned 1 1 1 0 0 0 0 0 0 0 0Major Events Actual 1 1 1 0 0 0 0 0 0 0 0
Progress Points Planned 1 1 1 1 1 1 1 1 1 1 1Progress Points Actual 0 1 0 1 1 1 1 1 1 1 1
Effort-Software Planned 90% 90% 90% 90% 90% 90% 90% 90% 90% 90% 90%Effort-Software Actual 0% 0% 24% 45% 51% 7% 7% 6% 7% 64% 63%
Risks (Low) 0 3 4 4 4 4 4 4 4 3 3Risks (Med) 0 0 0 0 0 0 0 0 0 1 1Risks (High) 0 0 0 0 0 0 0 0 0 0 0
Project PlanningCost/Schedule Revs Planned 0 0 1 0 0 0 0 0 0 0 0
Cost/Schedule Revs Actual 1 0 1 0 0 0 0 0 0 0 0Effort-Management Planned 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10%
Effort-Management Actual 24% 79% 37% 10% 5% 10% 7% 9% 8% 6% 5%Software Functionality
Requirements Planned 8.1 16.2 24.3 32.4 40.5 55.75 71 86.25 97.0Requirements Actual 0 0 19 28 51 51 51 51 57 61 142
Software QualityFSW Defect Count 0 0 0 0 0 0 0 0 0 0 0
non-FSW Defect Count 0 0 0 0 0 0 0 0 0 0 0Inspections Planned 0 0 0 0 0 0 1 0 0 1 0
Inspections Actual 0 0 0 0 0 0 0 0 0 0 0Effort-Quality Planned 0 0 0 0 0 0 0.2 0 0 0.2 0
Effort-Quality Actual 0 0 0 0 0 0 0 0 0 0 0Configuration Management
VDD Reviews Planned 0 0 0 0 0 0 1 0 0 1 0VDD Reviews Actual 0 0 0 0 0 0 0 0 0 0 0
CM Meetings Planned 0 0 0 0 0 0 0 0 0 0 0CM Meetings Actual 0 0 0 0 0 0 0 0 0 0 0
Requirements ManagementRequirements Changes 0 0 2 0 1 0 12 0 31 17 52
Effort-Engineering 24% 0% 3% 0% 0% 3% 5% 12% 29% 17% 5%
55PFP MSR, 3/15/2011
Margin Chart
Apr-10 May-10 Jun-10 Jul-10 Aug-10 Sep-10 Oct-10 Nov-10 Dec-10 Jan-11 Feb-11DCB
Spec A D E E E E F G H I IPROM SIZE 32 32 32 32 32 32 32 32 32 32 32
EEPROM SIZE 256 256 256 256 256 256 256 256 256 256 256FLASH TABLES 512 512 512 512 512 512 512 512 512 512 512
RAM SIZE 3072 3072 3072 3072 3072 3072 3072 3072 3072 3072 3072CPU Cycles/sec 16777216 16777216 16777216 16777216 16777216 16777216 16777216 16777216 16777216 16777216 16777216CPU Cycles/int 65536 65536 65536 65536 65536 65536 65536 65536 65536 65536 65536
CMD UART bps 57600 57600 57600 57600 57600 57600 57600 57600 57600 57600 57600TM UART bps 57600 57600 57600 57600 57600 57600 57600 57600 57600 57600 57600
FSWVERSION 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 1.0 1.0
PROM (BOOT) 0.00 0.00 0.00 4.44 7.46 7.46 7.46 7.46 7.46 8.61 12.61EEPROM (OPx2) 0.00 0.00 0.00 0.03 0.03 0.03 0.03 0.03 0.03 0.03 25.21
FLASH 0.00 0.00 0.00 0.03 0.03 0.03 0.03 0.03 0.03 0.03 0.03RAM 0.00 0.00 0.00 6.59 14.80 14.80 14.80 14.80 14.80 14.80 14.80
CPU Cycles/4s 6710886 6710886 6710886 6710886 6710886 6710886 6710886 6710886 6710886 6710886 6710886CPU Cycles/Int 6550 6550 6550 6550 6550 6550 6550 6550 6550 6550 6550
CMD UART% 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000TLM UART% 27000 27000 27000 27000 27000 27000 27000 27000 27000 27000 27000
MARGINS 50% 50% 50% 49% 48% 48% 47% 46% 45% 44% 43%PROM (BOOT) 620% 329% 329% 329% 329% 329% 272% 154%
EEPROM (OPx2) 819100% 819100% 819100% 819100% 819100% 819100% 819100% 915%FLASH 1638300% 1638300% 1638300% 1638300% 1638300% 1638300% 1638300% 1638300%
RAM 46517% 20656% 20656% 20656% 20656% 20656% 20656% 20656%CPU Cycles/4s 150% 150% 150% 150% 150% 150% 150% 150% 150% 150% 150%CPU Cycles/Int 901% 901% 901% 901% 901% 901% 901% 901% 901% 901% 901%
CMD UART% 5660% 5660% 5660% 5660% 5660% 5660% 5660% 5660% 5660% 5660% 5660%TLM UART% 113% 113% 113% 113% 113% 113% 113% 113% 113% 113% 113%
56PFP MSR, 3/15/2011
Fever Chart
1. FSW Requirements changes in the works2. Telemetry Specification changes in the works3. DCB ETU board currently in checkout4. DCB GSE not yet developed
LegendGreat. Ahead of ScheduleConcern about somethingProblems!
BOOT Apr-10 May-10 Jun-10 Jul-10 Aug-10 Sep-10 Oct-10 Nov-10 Dec-10 Jan-11 Feb-11RequirementsSpecificationsSoftware DevelopmentTesting
OPERATIONAL Apr-10 May-10 Jun-10 Jul-10 Aug-10 Sep-10 Oct-10 Nov-10 Nov-10 Jan-11 Feb-11RequirementsSpecificationsSoftware DevelopmentTesting
57PFP MSR, 3/15/2011
FSW QA
• Held a telecon with NASA QA to address differences between NASA Software Assurance Plan and SSL Software Development Plan.– Resulted in a rev to the SAP– Still have a few questions about interpretation, but we are close.
• Waiting word from Project on how to deal with 7150.2 CMMI issue.
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