The setup consists of two 84HP 3U desktop crates, each hosting power supply and 3 identical sets of modules that are later called "systems":
- Kasli v2.0.2
- DIO SMA v1.4.3 - channels 0-3 configured as outputs
- Urukul AD9910 v1.5.6
- Phaser Baseband (BB) v1.1.2
Therefore, the setup consists of 6 identical systems.
These systems are given consecutive letters from A to F. First crate hosts systems from A to C, second from D to F.
Each system is connected to the individual oscilloscope that is available via ARTIQ NDSP. Oscilloscopes are not identical, but have similar functionalites (Tektronix 4000 Series). Every system is connected to the oscilloscope in the same way:
Oscilloscope ch. | Module ch. |
---|---|
1 | DIO SMA ch. 0 (output) |
2 | Urukul AD9910 ch. 0 |
3 | Urukul AD9910 ch. 1 |
4 | Phaser BB RF out 0 |
Systems are available under the following addresses:
System | IP | Host |
---|---|---|
A | 192.168.95.213 |
qce24sa.ise.pw.edu.pl |
B | 192.168.95.214 |
qce24sb.ise.pw.edu.pl |
C | 192.168.95.215 |
qce24sc.ise.pw.edu.pl |
D | 192.168.95.216 |
qce24sd.ise.pw.edu.pl |
E | 192.168.95.217 |
qce24se.ise.pw.edu.pl |
F | 192.168.95.218 |
qce24sf.ise.pw.edu.pl |
Systems are connected to 6 individual oscilloscopes:
System | Osc. model | Osc. address |
---|---|---|
A | Tektronix MSO4104 | 192.168.95.182 |
B | Tektronix MDO4104-3 | 192.168.95.142 |
C | Tektronix MSO4104 | 192.168.95.164 |
D | Tektronix DPO4104 | 192.168.95.181 |
E | Tektronix MSO4104 | 192.168.95.165 |
F | To be selected | - |
System | Status | Tested |
---|---|---|
A | Flashed, signals not connected | OK |
B | Flashed, connected | OK |
C | Flashed, connected | OK |
D | Flashed, signals not connected | No |
E | Flashed, signals not connected | No |
F | Flashed, signals not connected, no oscilloscope | No |
deploy
command performs deployment of user experiment directories
to the given directory --target-dir
.
In target directory 6 subdirectories are created, corresponding to
6 different masters. They are called system_a
for setup A etc.
Each of system_<a..f>
directories consists of one subdirectory
holding experiment files called repository
and device_db.py
file corresponding to a given setup.
repository
subdirectory consists of number of subdirectories
for user experiments named by the pattern user_<n>
. The number
of such subdirectories depends on --users
parameter.
Each system_<m>/repository/user_<n>
directory consists of experiment
files copied from experiments/repository
and user.py
file defining
user_id
Python variable
The following plot shows the connection between modules and services used in this demo system
Hardware is assigned as follows:
Device | Channel | Use | Module |
---|---|---|---|
TTL Out | 0 | Scope Trigger | TriggerTTL |
TTL Out | 1 | Ablation Trigger | Ablation |
TTL Out | 2 | Cooling Sideband | Laser370 |
TTL Out | 3 | RTIO Benchmark | RTIOBenchmarkModule |
TTL In | 4 | PMT 1 | PMT |
TTL In | 5 | PMT 2 | PMT |
TTL In | 6 | PMT 3 | PMT |
TTL In | 7 | RTIO Benchmark | RTIOBenchmarkModule |
AD9910 | 0 | Microwave | Microwav |
AD9910 | 1 | 370 Modulation | Laser370 |
AD9910 | 2 | 370 Shutter | Laser370 |
AD9910 | 3 | 355 Shutter | Laser355 |
Before running the artiq_session
or artiq_run
, run the following command from the experiments
directory of this repository:
artiq_run --device-db device_db_sim.py dax_setup.py -c DaxSetup -q
To run the artiq_session
in sim mode, run the following command from the experiments
directory
artiq_session -m=--device-db -m device_db_sim.py
To run unittest, run the following command at the root of this repository:
pytest