| Priority | Resources | When | Status & Test | Who | |
| SDDS - acquisition, storage and monitoring - already implemented | 1 |
Check | June |
| System | What | Priority | When | To do | Who | |
| Beam Loss Monitors | Concentration | 1 |
June | Rollout | Marek | |
| Display | 1 |
June |
|
Fabio | ||
| Application: detailed look at acquired data, threshold adjustment | 1 |
Fabio | ||||
| BLM by BLM, history, browse, analysis | ||||||
| Post Mortem - analysis, recent history | ||||||
| Beam Position Monitors | Trajectory, orbit, 1000 turn acquisition from each BPM crate & concentration | 1 |
Marek | |||
Fixed Display |
1 |
|
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| Beam Current Transformer | Acquisition F & D | 1 |
Test as available | Markus | ||
| Display | 1 |
Markus | ||||
| BTV | Acquisition | 1 |
Test as available | |||
| Screen control | 1 |
Test as available | ||||
| Application | 1 |
Guy/Fabio | ||||
| Beam Synchronous Timing | Diagnostics - from timing section. | 1 |
Test as available | |||
| Radmon - Thijs | Acquisition | 2 |
Prototype tested | Nicholas | ||
| Display | 2 |
Prototype tested | Nicholas | |||
Tune - BBQ OP GUI |
Acquisition, control, display, analysis |
1 |
LAFS | |||
PLL measurement OP GUI |
4 BPL per beam for PLL tune measurement. & BQK (PLL tune kicker) per beam for PLL excitation LHC Tune PLL system will also use a BBQ front-end to provide the tune data, but will then have a digital PLL implemented within the digital acquisition part of the chain. Excitation for the PLL is either via the damper or dedicated BI stripline "beam ticklers". The PLL system will use different pick-ups from the ones used for standard tune measurement. |
1 |
LAFS | |||
| Chromaticity measurement | Frequency modulation. Presumable under tune PLL application | 1 |
LAFS | |||
| Chromaticity measurement | 2 BPL per beam (H & V) for head-tail chromaticity measurement | 1 |
ABP/BI (Olav/Ralph) | |||
| Tune Feedback | Close loop - into real-time framework | 2 |
Ralph | |||
| Chromaticity feedback | 3 |
Ralph | ||||
| Abort Gap Monitor | 3 |
LAFS | ||||
| Rest Gas Ionisation Monitor (BIPM) | B-field control plus compensation, interlocks | 3 |
LAFS | |||
| Wire scanners (BWS) |
Interlocks.
Movement. Acquisition (bunch selection etc.) |
2 |
Guy/LAFS | |||
| Schottky pick-ups | 2 BQS (H & V) per beam in RA47 Will not be ready before early 2007 not essential for 1st commissioning phase | 2 |
Suzanne - LAFS | |||
| Luminosity monitors | Acquisition, logging, display, scans | 2 |
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SR Monitors |
Wiggler control, acquistion, analysis etc | 1 |
functions to wigglers | LAFS |
| Resources | When | Who | |||
| Kickers | State control settings & trim & timing - application | ||||
| analogue acquisition (plus beam) | |||||
| XPOC | |||||
| Septa | trim in terms of strength - trim interface | ||||
| Functions - standard FGC | Done | - | |||
| Timing | Standard | - | |||
| Monitoring - to be defined | Extension of existing | ||||
| TDI | Application - settings generation - as for collimators | Stefano | |||
| Monitoring | |||||
| Collimators | Application - control, monitoring, interface to BLMs | Stefano + LSA | |||
Collimators - TCLI |
Positioning of TCLI. Full functionality - collimator adjustment |
Stefano |
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| Power Converters | Standard high-level control functionality: cycle, ramp, set, trim, states, tolerances Basic funcitonality already in place for HWC |
From sequencer see below |
PGC | Mike/Delphine etc. | |
| Acquisition: debugging, tracking studies... to be defined | |||||
| Appropriate handling of nested power supplies | In place | PGC | Mike/Delphine | ||
| Magnets |
|
Deploying | Marek/Mike |
||
| deGauss cycle - recycle of deGauss - all magnets | TEST | PGC | |||
| Cycle prescription for all magnets | Deploy and tests | Rob/Mike | |||
| RF - moutain range |
|
|
Delphine/Eric | ||
| RF - unit control | |||||
| RF - FGC | Paramater space, make rules, settings | Delphine | |||
| Longitudinal feedback | State/Settings/Repsonse |
|
Delphine | ||
| Transverse feedback | State/Settings/Repsonse |
|
Delphine | ||
| Transverse feedback | XPOC - big data processing exercise | ||||
| Beam Dump | Control/State/Settings | Markus | |||
| Beam Dump | XPOC - see below | ||||
| Spectrometer magnet control | Should fit under LSA setting - on/off part of run config | repeat test incoming | Delphine/Mike/Reyes | ||
| QPS & PIC interface | In place for HWC |
| Closed Orbit | Big one - see here for more details | Ongoing - good basis in place (JW) will need extending | Jorg & LSA support (Delphine) |
||
| Multiturn acquisition & harmonic analysis |
Ongoing | Verena | |||
| Beta beating | Prototype anaysis tools in place (python etc.) | Ongoing | ABP and friends | ||
| Orbit feedback | Ralph | ||||
| Test angle and position of beam at injection point |
| Resources | When | Who | |||
| XPOC - prototype for beam dump | May 08 - ongoing |
Jerome/Brennan/Eric |
| Who | |||||
| Shot Data Analysis | what acquisitions do we need to make when. And where do we store it. |
|
| ResouRResourcesrces | When | Test | Who | |
| SDDS to TFS to MAD - BPMs and correctors | CNGS | Ilya/Jutta | ||
| Full LHC machine image LSA to MAD | ||||
| Optics versioning | ||||
On-line invocation of MAD |
Key thing here is to decided on harness for executuion of MAD and interface to LSA.
| ResouRResourcesrces | When | Test | Who | |
| Sequencer | A big one - 6 months for the full, reliable Monty Start linear with GUI - LSA functionality |
Mike/Vito/Reyes/Roman |
| ResouRResourcesrces | When | Test | Who | ||
| Injection Sequencing | Version 1 in place for commissioning | May
|
Done | Delphine |
| ResouRResourcesrces | When | Test | Who | ||
| Test timing API | May | Q2 2007 | Stephane | ||
| Test program for timing system API | Stephane | ||||
| Generation and editing of timing tables GUI | May | Delphine | |||
| Resources | ||||
| Big list - see here | Using standard facilites hopefully. Should be a matter of configuration - 3 months plus support |
Appropriate views/status from industrial systems (cryogenics, vacuum)