Table of contents
- 1. Standard Mode (4Gbps, DDC, dual-pol)
- 1.1.1. VLBA & GBT
- 1.1.2. DBBC2 Stations (Eb,On,Ys,Mh)
- 1.1.3. DBBC3 Stations (Pv)
- 1.1.4. R2DBE Stations (Gl, LMT,Haystack)
- 1.1.5. KVN
- 1.1.6. ALMA
- 1.1.7. NOEMA
- 2. Broad band mode [experimental] (16Gbps, dual pol)
- 3. Polarization
- 4. Previous standard mode (2Gbps, PFB, dual-pol)
- 5. ALMA Mode 4 Gbps (fullband mode)
- 5.1.1. DBBC2 setup
- 5.1.2. FILA10G setup
- 1. Standard Mode (4Gbps, DDC, dual-pol)
- 1.1.1. VLBA & GBT
- 1.1.2. DBBC2 Stations (Eb,On,Ys,Mh)
- 1.1.3. DBBC3 Stations (Pv)
- 1.1.4. R2DBE Stations (Gl, LMT,Haystack)
- 1.1.5. KVN
- 1.1.6. ALMA
- 1.1.7. NOEMA
- 2. Broad band mode [experimental] (16Gbps, dual pol)
- 3. Polarization
- 4. Previous standard mode (2Gbps, PFB, dual-pol)
- 5. ALMA Mode 4 Gbps (fullband mode)
- 5.1.1. DBBC2 setup
- 5.1.2. FILA10G setup
Standard Mode (4Gbps, DDC, dual-pol)
Starting from Oct 2019 the GMVA will record at 4Gbps.
86012 - 86524 MHz (512 MHz, dual-polarization)
For the DiFX Zoom band setup see the Correlator_Cookbook, A1: GMVA_correlation
VLBA & GBT
RDBE DDC mode with 4x128 MHz bands, dual-pol
sky start [MHz] | sky stop [MHz] | bandwidth [MHz] | Sideband |
---|---|---|---|
86012 | 86140 | 128 | USB |
86140 | 86268 | 128 | USB |
86268 | 86396 | 128 | USB |
86396 | 86524 | 128 | USB |
Freq / Bitstream setup:
chan_def = : 86012.00 MHz : U : 128.00 MHz : &CH01 : &BBC01 : &NoCal; *Rcp chan_def = : 86012.00 MHz : U : 128.00 MHz : &CH02 : &BBC02 : &NoCal; *Lcp chan_def = : 86140.00 MHz : U : 128.00 MHz : &CH03 : &BBC03 : &NoCal; *Rcp chan_def = : 86140.00 MHz : U : 128.00 MHz : &CH04 : &BBC04 : &NoCal; *Lcp chan_def = : 86268.00 MHz : U : 128.00 MHz : &CH05 : &BBC05 : &NoCal; *Rcp chan_def = : 86268.00 MHz : U : 128.00 MHz : &CH06 : &BBC06 : &NoCal; *Lcp chan_def = : 86396.00 MHz : U : 128.00 MHz : &CH07 : &BBC07 : &NoCal; *Rcp chan_def = : 86396.00 MHz : U : 128.00 MHz : &CH08 : &BBC08 : &NoCal; *Lcp
DBBC2 Stations (Eb,On,Ys,Mh)
All DBBC2 stations should use:
- DDC mode (firmware 107 beta3)
- LO=85500
- 2nd Nyquist zone: 512 -1024 MHz
- Use 2 Core-boards
Bitstream setup:
Note: Use astro if IFs are connected to Boards A+B, use astro2 if IFs are connected to boards A+C
- On,Ef: dbbcform=astro
- Ys,Mh: dbbcform=astro2
bbc freq | sideband | bandwidth | sky start [MHz] | sky stop |
---|---|---|---|---|
960 | USB | 64 | 86460 | 86524 |
LSB | 64 | 86460 | 86396 | |
832 | USB | 64 | 86332 | 86396 |
LSB | 64 | 86332 | 86268 | |
704 | USB | 64 | 86204 | 86268 |
LSB | 64 | 86204 | 86140 | |
576 | USB | 64 | 86076 | 86140 |
LSB | 64 | 86076 | 86012 |
DBBC3 Stations (Pv)
All DBBC3 stations:
- DDC_U mode (firmware V126)
PV setup:
- 1st LO=92100 (dictated by the DBBC2 IF requirements)
- 2nd LO= 9048 (DBBC3 GComo)
- Use E90LI IFs (4-9GHz LSB)
- Baseband: 0-4 GHz USB => 83052 - 87052 sky freq
Bitstream order (fixed for DDC_U mode):
- BBC1-USB, BBC1-LSB, BBC2-USB, BBC2-LSB, ...
Observations can be done with 128MHz or 64 MHz subbands (see tables below)
BBC setup (DDC_U with 64MHz bands):
bbc freq | net sideband | bandwidth | sky start | sky stop |
---|---|---|---|---|
3024 | LSB | 64 | 86012 | 86076 |
USB | 64 | 86076 | 86140 | |
3152 | LSB | 64 | 86140 | 86204 |
USB | 64 | 86204 | 86268 | |
3280 | LSB | 64 | 86268 | 86332 |
USB | 64 | 86332 | 86396 | |
3408 | LSB | 64 | 86396 | 86460 |
USB | 64 | 86460 | 86524 |
BBC setup (DDC_U with 128MHz bands):
bbc freq | net sideband | bandwidth | sky start | sky stop |
---|---|---|---|---|
3088.0 | LSB | 128 | 86012 | 86140 |
USB | 128 | 86140 | 86268 | |
3344.0 | LSB | 128 | 86268 | 86396 |
USB | 128 | 86396 | 86524 |
Bandpass shapes @64and 128 MHz
64 MHz | 128 MHz |
---|---|
R2DBE Stations (Gl, LMT,Haystack)
- R2DBE stations must manually setup their systems (no vex/drudg support)
- IF setup is flexible as long as the 2GHz band includes the 86012 - 86524 MHz sub-band
- Desired tuning would yield: 85244 - 87292 USB or LSB.
KVN
- Bistream order: ?
sideband | bandwidth | sky start [MHz] | sky stop |
---|---|---|---|
USB | 64 | 86460 | 86524 |
LSB | 64 | 86460 | 86396 |
USB | 64 | 86332 | 86396 |
LSB | 64 | 86332 | 86268 |
USB | 64 | 86204 | 86268 |
LSB | 64 | 86204 | 86140 |
USB | 64 | 86076 | 86140 |
LSB | 64 | 86076 | 86012 |
ALMA
ALMA will record a band of 1.875 GHz subdivided into 62.5MHz wide sub-bands:
chan_def = &W : 87210.453125 MHz : L : 62.5 MHz : &CH01 : &BBC07 : &cp;
chan_def = &W : 87151.859375 MHz : L : 62.5 MHz : &CH02 : &BBC07 : &cp;
chan_def = &W : 87093.265625 MHz : L : 62.5 MHz : &CH03 : &BBC07 : &cp;
chan_def = &W : 87034.671875 MHz : L : 62.5 MHz : &CH04 : &BBC07 : &cp;
chan_def = &W : 86976.078125 MHz : L : 62.5 MHz : &CH05 : &BBC07 : &cp;
chan_def = &W : 86917.484375 MHz : L : 62.5 MHz : &CH06 : &BBC07 : &cp;
chan_def = &W : 86858.890625 MHz : L : 62.5 MHz : &CH07 : &BBC07 : &cp;
chan_def = &W : 86800.296875 MHz : L : 62.5 MHz : &CH08 : &BBC07 : &cp;
chan_def = &W : 86741.703125 MHz : L : 62.5 MHz : &CH09 : &BBC07 : &cp;
chan_def = &W : 86683.109375 MHz : L : 62.5 MHz : &CH10 : &BBC07 : &cp;
chan_def = &W : 86624.515625 MHz : L : 62.5 MHz : &CH11 : &BBC07 : &cp;
chan_def = &W : 86565.921875 MHz : L : 62.5 MHz : &CH12 : &BBC07 : &cp;
chan_def = &W : 86507.328125 MHz : L : 62.5 MHz : &CH13 : &BBC07 : &cp;
chan_def = &W : 86448.734375 MHz : L : 62.5 MHz : &CH14 : &BBC07 : &cp;
chan_def = &W : 86390.140625 MHz : L : 62.5 MHz : &CH15 : &BBC07 : &cp;
chan_def = &W : 86331.546875 MHz : L : 62.5 MHz : &CH16 : &BBC07 : &cp;
chan_def = &W : 86272.953125 MHz : L : 62.5 MHz : &CH17 : &BBC07 : &cp;
chan_def = &W : 86214.359375 MHz : L : 62.5 MHz : &CH18 : &BBC07 : &cp;
chan_def = &W : 86155.765625 MHz : L : 62.5 MHz : &CH19 : &BBC07 : &cp;
chan_def = &W : 86097.171875 MHz : L : 62.5 MHz : &CH20 : &BBC07 : &cp;
chan_def = &W : 86038.578125 MHz : L : 62.5 MHz : &CH21 : &BBC07 : &cp;
chan_def = &W : 85979.984375 MHz : L : 62.5 MHz : &CH22 : &BBC07 : &cp;
chan_def = &W : 85921.390625 MHz : L : 62.5 MHz : &CH23 : &BBC07 : &cp;
chan_def = &W : 85862.796875 MHz : L : 62.5 MHz : &CH24 : &BBC07 : &cp;
chan_def = &W : 85804.203125 MHz : L : 62.5 MHz : &CH25 : &BBC07 : &cp;
chan_def = &W : 85745.609375 MHz : L : 62.5 MHz : &CH26 : &BBC07 : &cp;
chan_def = &W : 85687.015625 MHz : L : 62.5 MHz : &CH27 : &BBC07 : &cp;
chan_def = &W : 85628.421875 MHz : L : 62.5 MHz : &CH28 : &BBC07 : &cp;
chan_def = &W : 85569.828125 MHz : L : 62.5 MHz : &CH29 : &BBC07 : &cp;
chan_def = &W : 85511.234375 MHz : L : 62.5 MHz : &CH30 : &BBC07 : &cp;
chan_def = &W : 85452.640625 MHz : L : 62.5 MHz : &CH31 : &BBC07 : &cp;
chan_def = &W : 85394.046875 MHz : L : 62.5 MHz : &CH32 : &BBC07 : &cp;
chan_def = &W : 87210.453125 MHz : L : 62.5 MHz : &CH33 : &BBC08 : &cp;
chan_def = &W : 87151.859375 MHz : L : 62.5 MHz : &CH34 : &BBC08 : &cp;
chan_def = &W : 87093.265625 MHz : L : 62.5 MHz : &CH35 : &BBC08 : &cp;
chan_def = &W : 87034.671875 MHz : L : 62.5 MHz : &CH36 : &BBC08 : &cp;
chan_def = &W : 86976.078125 MHz : L : 62.5 MHz : &CH37 : &BBC08 : &cp;
chan_def = &W : 86917.484375 MHz : L : 62.5 MHz : &CH38 : &BBC08 : &cp;
chan_def = &W : 86858.890625 MHz : L : 62.5 MHz : &CH39 : &BBC08 : &cp;
chan_def = &W : 86800.296875 MHz : L : 62.5 MHz : &CH40 : &BBC08 : &cp;
chan_def = &W : 86741.703125 MHz : L : 62.5 MHz : &CH41 : &BBC08 : &cp;
chan_def = &W : 86683.109375 MHz : L : 62.5 MHz : &CH42 : &BBC08 : &cp;
chan_def = &W : 86624.515625 MHz : L : 62.5 MHz : &CH43 : &BBC08 : &cp;
chan_def = &W : 86565.921875 MHz : L : 62.5 MHz : &CH44 : &BBC08 : &cp;
chan_def = &W : 86507.328125 MHz : L : 62.5 MHz : &CH45 : &BBC08 : &cp;
chan_def = &W : 86448.734375 MHz : L : 62.5 MHz : &CH46 : &BBC08 : &cp;
chan_def = &W : 86390.140625 MHz : L : 62.5 MHz : &CH47 : &BBC08 : &cp;
chan_def = &W : 86331.546875 MHz : L : 62.5 MHz : &CH48 : &BBC08 : &cp;
chan_def = &W : 86272.953125 MHz : L : 62.5 MHz : &CH49 : &BBC08 : &cp;
chan_def = &W : 86214.359375 MHz : L : 62.5 MHz : &CH50 : &BBC08 : &cp;
chan_def = &W : 86155.765625 MHz : L : 62.5 MHz : &CH51 : &BBC08 : &cp;
chan_def = &W : 86097.171875 MHz : L : 62.5 MHz : &CH52 : &BBC08 : &cp;
chan_def = &W : 86038.578125 MHz : L : 62.5 MHz : &CH53 : &BBC08 : &cp;
chan_def = &W : 85979.984375 MHz : L : 62.5 MHz : &CH54 : &BBC08 : &cp;
chan_def = &W : 85921.390625 MHz : L : 62.5 MHz : &CH55 : &BBC08 : &cp;
chan_def = &W : 85862.796875 MHz : L : 62.5 MHz : &CH56 : &BBC08 : &cp;
chan_def = &W : 85804.203125 MHz : L : 62.5 MHz : &CH57 : &BBC08 : &cp;
chan_def = &W : 85745.609375 MHz : L : 62.5 MHz : &CH58 : &BBC08 : &cp;
chan_def = &W : 85687.015625 MHz : L : 62.5 MHz : &CH59 : &BBC08 : &cp;
chan_def = &W : 85628.421875 MHz : L : 62.5 MHz : &CH60 : &BBC08 : &cp;
chan_def = &W : 85569.828125 MHz : L : 62.5 MHz : &CH61 : &BBC08 : &cp;
chan_def = &W : 85511.234375 MHz : L : 62.5 MHz : &CH62 : &BBC08 : &cp;
chan_def = &W : 85452.640625 MHz : L : 62.5 MHz : &CH63 : &BBC08 : &cp;
chan_def = &W : 85394.046875 MHz : L : 62.5 MHz : &CH64 : &BBC08 : &cp;
NOEMA
The NOEMA frequency setup for 4 Gbps x 2-pol is as in their 2022 frequency spreadsheet, screenshot below.
The default freq block for 4 Gbps is
def 86012.00MHz32x64MHz; * stations=Nn * noema-vex-defs.py -r 5 -f 92.764 sample_rate = 128.0 Ms/sec; * (2bits/sample) * Recorder 5, slot 1, LSB-Inner, LCP, subbands 16-31 chan_def = &B: 86012.00 MHz : U : 64.00 MHz : &CH01 : &BBC01 : &NoCal; chan_def = &B: 86076.00 MHz : U : 64.00 MHz : &CH02 : &BBC01 : &NoCal; chan_def = &B: 86140.00 MHz : U : 64.00 MHz : &CH03 : &BBC01 : &NoCal; chan_def = &B: 86204.00 MHz : U : 64.00 MHz : &CH04 : &BBC01 : &NoCal; chan_def = &B: 86268.00 MHz : U : 64.00 MHz : &CH05 : &BBC01 : &NoCal; chan_def = &B: 86332.00 MHz : U : 64.00 MHz : &CH06 : &BBC01 : &NoCal; chan_def = &B: 86396.00 MHz : U : 64.00 MHz : &CH07 : &BBC01 : &NoCal; chan_def = &B: 86460.00 MHz : U : 64.00 MHz : &CH08 : &BBC01 : &NoCal; chan_def = &B: 86524.00 MHz : U : 64.00 MHz : &CH09 : &BBC01 : &NoCal; chan_def = &B: 86588.00 MHz : U : 64.00 MHz : &CH10 : &BBC01 : &NoCal; chan_def = &B: 86652.00 MHz : U : 64.00 MHz : &CH11 : &BBC01 : &NoCal; chan_def = &B: 86716.00 MHz : U : 64.00 MHz : &CH12 : &BBC01 : &NoCal; chan_def = &B: 86780.00 MHz : U : 64.00 MHz : &CH13 : &BBC01 : &NoCal; chan_def = &B: 86844.00 MHz : U : 64.00 MHz : &CH14 : &BBC01 : &NoCal; chan_def = &B: 86908.00 MHz : U : 64.00 MHz : &CH15 : &BBC01 : &NoCal; chan_def = &B: 86972.00 MHz : U : 64.00 MHz : &CH16 : &BBC01 : &NoCal; * Recorder 5, slot 2, LSB-Inner, RCP, subbands 16-31 chan_def = &B: 86012.00 MHz : U : 64.00 MHz : &CH17 : &BBC02 : &NoCal; chan_def = &B: 86076.00 MHz : U : 64.00 MHz : &CH18 : &BBC02 : &NoCal; chan_def = &B: 86140.00 MHz : U : 64.00 MHz : &CH19 : &BBC02 : &NoCal; chan_def = &B: 86204.00 MHz : U : 64.00 MHz : &CH20 : &BBC02 : &NoCal; chan_def = &B: 86268.00 MHz : U : 64.00 MHz : &CH21 : &BBC02 : &NoCal; chan_def = &B: 86332.00 MHz : U : 64.00 MHz : &CH22 : &BBC02 : &NoCal; chan_def = &B: 86396.00 MHz : U : 64.00 MHz : &CH23 : &BBC02 : &NoCal; chan_def = &B: 86460.00 MHz : U : 64.00 MHz : &CH24 : &BBC02 : &NoCal; chan_def = &B: 86524.00 MHz : U : 64.00 MHz : &CH25 : &BBC02 : &NoCal; chan_def = &B: 86588.00 MHz : U : 64.00 MHz : &CH26 : &BBC02 : &NoCal; chan_def = &B: 86652.00 MHz : U : 64.00 MHz : &CH27 : &BBC02 : &NoCal; chan_def = &B: 86716.00 MHz : U : 64.00 MHz : &CH28 : &BBC02 : &NoCal; chan_def = &B: 86780.00 MHz : U : 64.00 MHz : &CH29 : &BBC02 : &NoCal; chan_def = &B: 86844.00 MHz : U : 64.00 MHz : &CH30 : &BBC02 : &NoCal; chan_def = &B: 86908.00 MHz : U : 64.00 MHz : &CH31 : &BBC02 : &NoCal; chan_def = &B: 86972.00 MHz : U : 64.00 MHz : &CH32 : &BBC02 : &NoCal; enddef;
Recording under GMVA is done with two separate VDIF files per scan (one VDIF per polarization). The corresponding v2d entries are:
DATASTREAM dsNnLCP { filelist=nn-lcp.flist format=INTERLACEDVDIF/4:5:6:7/8224/2 } DATASTREAM dsNnRCP { filelist=nn-rcp.flist format=INTERLACEDVDIF/4:5:6:7/8224/2 } ANTENNA NN { datastreams=dsNnLCP,dsNnRCP }
Broad band mode [experimental] (16Gbps, dual pol)
Desired tuning would yield: 85244 - 87292 USB or LSB.
GLT
LMT
ALMA
NOEMA
MOPRA
KVN
Onsala
Polarization
Yebes
Circular. Mount info for the 86 GHz receiver is Nasmyth Right since 2018.1, previously Nasmyth Left. Can specify it in VEX under DiFX 2.6.2+ via
def YEBES40M; axis_type = nasmyth : r; antenna_motion = el : 60.0 deg/min : 20 sec; * 1000.000 deg/sec/sec antenna_motion = az : 60.0 deg/min : 20 sec; * 1000.000 deg/sec/sec axis_offset = 1.99600 m; enddef;
Pico
Circular. Nasmyth Left probably, as hardoded in (and any VEX overridden by) difxio antenna_db.c, but can try VEX,
def PICOVEL; axis_type = nasmyth : l; antenna_motion = el : 30.0 deg/min : 20 sec; * 1000.000 deg/sec/sec antenna_motion = az : 30.0 deg/min : 20 sec; * 1000.000 deg/sec/sec axis_offset = 0.00000 m; enddef;
ATCA
Observes in linear polarization, but data get converted on-site into a circular basis. The LBA-formatted data are thus circular. Unknown ellipticity, but probably low.
Mopra
Linear polarized 86 GHz receiver. Mount is Az-El. Data must be rotated after correlation. No calibration data for PolConvert.
Unfortunately, code plus observational issues for Mopra with a CASA PolSolve --> PolConvert approach.
Instead, Ivan M Vidal has a QWP_ROTATE.py module and QWP_APPLY_...py script. Rotation by a constant factor, not much calibration.
From GMVA C221 it appeas that the correct settinigs are 45 deg in a +1 sense cf. QWP_APPLY_... code.
ALMA
Linear polarized. ALMA QA2 team provides ready calibration tables to use in PolConvert.
Previous standard mode (2Gbps, PFB, dual-pol)
This mode is deprecated. New standard mode mode is DDC @ 4Gbps (see above)
The standard GMVA frequency setup is used for more than 90% of all observations. The data-rate is at present restricted to 2 Gbps due to limitations at the VLBA, which may get lifted in the near future.
Other frequency setups which are listed in the VLBA table of setups (see frequency.dat of SCHED) for the 86 GHz receiver are possible though, but not all stations may be able to tune to all the LOs given in that table.
Setup (European stations & VLBA)
def 86380.00MHz16x32MHz; * mode = 1 stations =Eb:Ef:On:Mh:Ys:Pv:Gb:Nl:Pt:La:Fd:Kp:Ov:Br:Mk:Lm sample_rate = 64.000 Ms/sec; * (2bits/sample) chan_def = : 86380.00 MHz : L : 32.00 MHz : &CH01 : &BBC01 : &L_Cal; *Rcp chan_def = : 86380.00 MHz : L : 32.00 MHz : &CH02 : &BBC02 : &L_Cal; *Lcp chan_def = : 86348.00 MHz : L : 32.00 MHz : &CH03 : &BBC03 : &L_Cal; *Rcp chan_def = : 86348.00 MHz : L : 32.00 MHz : &CH04 : &BBC04 : &L_Cal; *Lcp chan_def = : 86316.00 MHz : L : 32.00 MHz : &CH05 : &BBC05 : &L_Cal; *Rcp chan_def = : 86316.00 MHz : L : 32.00 MHz : &CH06 : &BBC06 : &L_Cal; *Lcp chan_def = : 86284.00 MHz : L : 32.00 MHz : &CH07 : &BBC07 : &L_Cal; *Rcp chan_def = : 86284.00 MHz : L : 32.00 MHz : &CH08 : &BBC08 : &L_Cal; *Lcp chan_def = : 86252.00 MHz : L : 32.00 MHz : &CH09 : &BBC09 : &L_Cal; *Rcp chan_def = : 86252.00 MHz : L : 32.00 MHz : &CH10 : &BBC10 : &L_Cal; *Lcp chan_def = : 86220.00 MHz : L : 32.00 MHz : &CH11 : &BBC11 : &L_Cal; *Rcp chan_def = : 86220.00 MHz : L : 32.00 MHz : &CH12 : &BBC12 : &L_Cal; *Lcp chan_def = : 86188.00 MHz : L : 32.00 MHz : &CH13 : &BBC13 : &L_Cal; *Rcp chan_def = : 86188.00 MHz : L : 32.00 MHz : &CH14 : &BBC14 : &L_Cal; *Lcp chan_def = : 86156.00 MHz : L : 32.00 MHz : &CH15 : &BBC15 : &L_Cal; *Rcp chan_def = : 86156.00 MHz : L : 32.00 MHz : &CH16 : &BBC16 : &L_Cal; *Lcp enddef;
Setup (KVN stations)
def 86156.00MHz8x32MHz; * mode = 1 stations =Ky:Ku:Kt sample_rate = 64.000 Ms/sec; * (2bits/sample) chan_def = : 86156.00 MHz : L : 32.00 MHz : &CH01 : &BBC01 : &NoCal; *Lcp chan_def = : 86156.00 MHz : L : 32.00 MHz : &CH02 : &BBC02 : &NoCal; *Rcp chan_def = : 86156.00 MHz : U : 32.00 MHz : &CH03 : &BBC01 : &NoCal; *Lcp chan_def = : 86156.00 MHz : U : 32.00 MHz : &CH04 : &BBC02 : &NoCal; *Rcp chan_def = : 86220.00 MHz : L : 32.00 MHz : &CH05 : &BBC01 : &NoCal; *Lcp chan_def = : 86220.00 MHz : L : 32.00 MHz : &CH06 : &BBC02 : &NoCal; *Rcp chan_def = : 86220.00 MHz : U : 32.00 MHz : &CH07 : &BBC01 : &NoCal; *Lcp chan_def = : 86220.00 MHz : U : 32.00 MHz : &CH08 : &BBC02 : &NoCal; *Rcp enddef;
LO=85500 MHz
DBBC2 stations have to use the flex mode with the following channel selection in the prc-file:
vsi1=a05,a06,a07,a08,a09,a10,a11,a12,b05,b06,b07,b08,b09,b10,b11,b12
Stations which can only offer a reduced bandwidth of bitrate are considered non-standard. Setups have to be negotiated with the GMVA technical team (chair: W. Alef, MPIfR)
All other setups are non-standard and require consultation with the GMVA scheduler or technical team (chair: W. Alef, MPIfR).
ALMA Mode 4 Gbps (fullband mode)
Deprecated mode. Do not use!
The description is kept for reference only.
For ALMA compatibilty the DBBC2 stations must observe in fullband PFB mode covering the full 512 MHz per polarisation in a single IF channel.
NOTE: You must use the last two core boards in the DBBC2 board stack for the fullband mode. All data from the last Core2Board (presumably IFD) will be send to VSI1 and all from last-1 (presumably IFC) to VSI2. There is no option to choose something else.
DBBC2 setup
Restart of the DBBC PFB control software is not required unless the DDC mode was used prior to the fullband mode.
The only option to be commanded is
dbbcform=full_auto
FILA10G setup
To combine the both VSI streams it is usually enough to set the Fila10G to:
splitmode off
inputselect vsi1-2
vsi_samplerate 64000000
reset keepsync
vdif_station PV (<-change to your station code)
vdif_frame 2 2 5000 ct=off
reset keepsync
regwrite chan_perm 0 0x21200100
regwrite chan_perm 1 0x23220302
regwrite chan_perm 2 0x25240504
regwrite chan_perm 3 0x27260706
regwrite chan_perm 4 0x29280908
regwrite chan_perm 5 0x2B2A0B0A
regwrite chan_perm 6 0x2D2C0D0C
regwrite chan_perm 7 0x2F2E0F0E
regwrite chan_perm 8 0x31301110
regwrite chan_perm 9 0x33321312
regwrite chan_perm 10 0x35341514
regwrite chan_perm 11 0x37361716
regwrite chan_perm 12 0x39381918
regwrite chan_perm 13 0x3B3A1B1A
regwrite chan_perm 14 0x3D3C1D1C
regwrite chan_perm 15 0x3F3E1F1E
reset keepsync
timesync
Note: the last command "timesync" will only work if your FiLA10G is equipped with a GPS module/antenna. If this is not the case at your station you can do the time syncronization either:
-
manually: timesync <YYYY>-<MM>-<DD>T<hh>:<mm>:<ss>
-
use the FS fmset command. This must be done prior to executing the above procedure!
IMPORTANT: Do not use FMSET to sync the FILA10G after executing the above procedure as this will partially overwrite the above setting.
Note: The regwrite statements will join the two steams to a single 64 bit stream one after each other VSI1 bit 0-31 and VSI2 bit 32 to 61. The correlator expects to have alternating bits from channel 1 and 2. VSI1 bit 0+1, VSI2 bit2+3, ....
The mode has been succesfully tested at Effelsberg (details).