Visions:NoobiesTutorial: Difference between revisions
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* It is strongly suggested to upload your Thesis to the KIP publications archive https://www.kip.uni-heidelberg.de/Veroeffentlichungen/new.php |
* It is strongly suggested to upload your Thesis to the KIP publications archive https://www.kip.uni-heidelberg.de/Veroeffentlichungen/new.php |
||
* A printed version of your thesis is required for the "Lehrstuhl" archive. |
* A printed version of your thesis is required for the "Lehrstuhl" archive; ask Felicitas Kleveta for details. |
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== Results Guidelines == |
== Results Guidelines == |
Revision as of 08:14, 1 March 2021
Abbreviated Names
AB: Andreas Baumbach AE: Arne Emmel AFK: Ćkos Kungl AG: Andreas GrĆ¼bl AL: Aron Leibfried BC: Benjamin Cramer BK: Bjƶrn Kindler BV: Bernhard Vogginger CM: Christian Mauch CP: Christian Pehle CVR: Carl Von Randow DD: Dominik Dold DH: Dan Husmann ECM: Eric MĆ¼ller FE: Falk Ebert FK: Felicitas Kleveta FP: Felix Passenberg HS: Hartmut Schmidt JG: Julian Goeltz JI: Joscha Ilmberger JM: JosĆ© Montes JK: Jakob Kaiser JS: Johannes Schemmel JW: Johannes Weis KS: Korbinian Schreiber MAP: Mihai Petrovici MD: Markus Dorn MG: Maurice GĆ¼ttler OMA: Oscar MartĆn-Almendral OJB: Oliver Breitwieser PSP: Philipp Spilger SB: Sebastian Billaudelle StB: Stefan Becker SK: Simeon Kanya SS: Sebastian Schmitt TT: Tobias Thommes VK: Vitali Karasenko YS: Yannik Stradmann QS: Quirinus Schwarzenboeck
Meetings, sorted by time
Meeting Title | Description | Location | Datetime | Manager |
---|---|---|---|---|
BMBF Wettbewerb ā Morgenrunde | Short daily status report of direct participants in the BMBF competition for low-energy inference. | ENI, zoom "EXA" | Daily (besides Thursdays) at 11:30 | YS (backup: JI) |
BrainScaleS-1 Users Meeting | Users and hardware guys discussing about current topics related to hardware usage. Logs here | ENI, zoom 1 | Weekly, Monday at 10:30 | MG (backup: ECM or CM) |
BrainScaleS-2 Hardware Meeting | Chip design meeting. Logs and agenda can be found here. | ENI, zoom 1 | Weekly, Tuesday at 10:00 | JS |
Software Meeting š ā¤ | The Softies meet ā and talk š. Logs and agenda can be found here. | ENI, zoom 1 | Weekly, Tuesday at 14:30 | ECM (backup: OJB, CM, SS) |
BrainScaleS-2 Users Meeting | Next-generation hardware systems users talk about progress and problems. | ENI, zoom 1 | Weekly, Wednesday at 10:00 | CM (backup: ECM) |
TMA Meeting | Logs and agenda can be found here. | ENI, dfn? | Weekly, Wednesday at 14:00 | MAP |
NMPM-1 HW Meeting | PCB and System-Design related discussions. Platform setup and installation also covered. #MeetingLog. | ENI, zoom 1 | Weekly, Wednesday at 15:00 | AG |
ASIC Meeting | Seminarbox 1.Stock KIP, SB1 | Weekly, Wednesday at 16:00, alternating between ASIC classic and ASIC DLS | JS | |
F9/Electronic Vision(s)' Group Meeting | Mandatory group meeting. Logs and agenda can be found here (login using BrainScaleS account). | ENI, zoom 1 | Weekly, Thursday at 9:00 | JS |
FPGA Development Meeting | Logs and agenda can be found here. | ENI, zoom 1 | Weekly, Thursday at 13:15 | AG (backup: ECM). |
Accounts
Typically, you will need the following accounts:
- KIP-Account (see KIP Institute Login)
- Flagship/ex-BrainScaleS-Account (which provides Access to the gitviz-Repository)
- EBRAINS Account
If you work on the waferscale hardware or need access to the computer cluster ask your supervisor to write an email to the cluster commissioners (+ get an introduction by your supervisor). If you do chip or FPGA development, you need ASIC permissions. Ask your supervisor to write an email to MD (+ get an introduction by your supervisor).
Login
KIP
The KIP login process is used for both, physical (i.e. keys) and virtual (i.e. user login stuff) access to KIP facilities. All F9 group services use some kind of KIP account/authentication. The login form can be found here: https://www.kip.uni-heidelberg.de/service/verwaltung/form_forms (needs KIP login).
Rules (as a hint for your supervisor) regarding the "LOGIN Computing" part:
- students should not use their URZ account name but rather a readable abbreviation of their real name, e.g.
emueller
- state that the student should be added to f9 mailing list (IT) ... (it is an *alias* mailing list for kip_vision)
- same for kip visions wiki (IT)
- chip design permission if needed
- internshippers and bachelor students should be assigned to primary group F9_guests (field "3")
- master students and beyond should be assigned to primary group F9 (field "3")
You will have to collect all signatures and give your 50ā¬ key deposit to Mrs. Hafranke or Mrs. Potthoff. Suggested waypoints:
- 1st floor: Signature of JS and FK
- Ground floor: deposit for key in room 00.304
- 2nd floor: Signature of H. Jacobsen or alternatively E. Schmetzer
- 3rd floor: First go to EDV (they will cut off the lower part of the form) then go to P. Doust to ask for a key (he will keep the upper part of the form)
Vision(s)
- inform cluster commissioner, i.e. CM, ECM, they will create wang home and slurm user
- Sign form to allow open sourcing of contributions.
Flagship/ex-BrainScaleS
Flagship/ex-BrainScaleS accounts are managed by BK. You can contact him directly. This account is also needed for Redmine/GitViz access.
EBRAINS
When you got your KIP mail address, please also:
- register here for an HBP / EBRAINS account: https://iam.ebrains.eu/register
- and click the "request to join" button for the T6.1 unit (our task in HBP SGA3): https://wiki.ebrains.eu/bin/view/Identity/#/units/all:projects:hbp:consortium:SGA3:WP6:T6_01 When granted this gives you access to e.g. the WP6 internal Collab.
OpenProject Gitolite Repository Permissions
When your login works, please create ssh keys as indicated in [1] and upload the key to gitviz. Afterwards you should ask the project managers to add you to the needed repositories (your supervisor can help you). In case of ssh-key fails, please stick to the description in the symap2ic wiki (it's always the user's fault ;p). If you need further help, you may ask ECM/JS, the gitviz administrators.
Workplace
Who should I call for help? (FAQ)
- The power is not working/toilet is overflowing/... ā 54-5111 Stƶrungsstelle (āAlles was zur Grundversorgung gehƶrt: Strom/Gas/Wasserā; āder Hausmeister wĆ¼rde ohnehin nur dort anrufenā)
- Office doors don't open (e.g. empty lock battery), and other "Haustechnik" stuff ā haustechnik@kip.uni-heidelberg.de
Computers
We use a Debian Jessie-based default installation. The configuration is automatically managed. In case of package requests, please ask StB. Bugs and requests should be posted here.
The spack package manager is used to provide modules, if you run into issues try to find your question here.
If the GUI session is blocked by a previous user, go to a non GUI session (Ctrl+Alt+F1/2/3) log in and start GUI with startx
The list of visionary desktop computers can be found here Visions_Privat:ComputerUsage. Available unused machines can be found in this list.
Space
There are some places in the "Werkstatt" building (room 501) and in the container building. In case of a transient shortage of spaces, internshippers and bachelors are expected to "fill up" (i.e. they do not have a static assignment to a specific place) all available places.
Network
If you want to use your own laptop inside the KIP network, you first need to register your laptop's MAC address. AG, JS are allowed to edit the list.
From inside the KIP network, outgoing traffic has to go through the EDV:KIPProxy. You can create a proxy auto-config file, e.g. /etc/proxy.pac
and configure your browser and system to use it. This way you do not need to manually switch proxy settings when switching between KIP and other networks.
function FindProxyForURL(url, host) { if (isInNet(myIpAddress(), "129.206.180.0", "255.255.255.0")) { if (isInNet(host, "129.206.0.0", "255.255.0.0")) { return "DIRECT"; } return "PROXY proxy.kip.uni-heidelberg.de:8080" ; } else { return "DIRECT"; } }
Communication
To stay informed (and to provide information to others) you should join F9's own slack-like chat server on chatviz. The main channels are:
Channel | Topic |
---|---|
#softies
|
Software and stuff |
#hardies
|
Hardware |
#tma
|
Modeling |
#clusteraner
|
Cluster usage and announcements |
You should create an account on https://chat.bioai.eu/visions (externally reachable).
Computing
Know your Tools
Classes teach you all about advanced topics within CS, from operating systems to machine learning, but thereās one critical subject thatās rarely covered, and is instead left to students to figure out on their own: proficiency with their tools. Weāll teach you how to master the command-line, use a powerful text editor, use fancy features of version control systems, and much more!
https://missing.csail.mit.edu/
Cluster Access
The F9 cluster is part of the BrainScaleS and HBP hardware systems. In times of idle nodes (i.e. the associated neuromorphic hardware parts are idle too), conventional software simulations can be run on the system. Please note, the cluster's main objective is controlling neuromorphic hardware and not number crunching. Having a KIP-Account gives you a home folder (distributed filesystem, AFS) on all machines running the default installation. However, this is not sufficient for cluster usage. You need a "wang" home and cluster access permissions. Both are managed by ECM and CM. In case of a missing cluster_home you will see an error message when you lock into a compute server.
The frontend/login nodes are named:
- hel
and you can access them via (example for hel, but works with any other name too)
ssh -X hel
If you are working from outside the institute, you can access the frontend via
ssh -p <port> <kipuser>@brainscales-r.kip.uni-heidelberg.de
The following ports give access to:
- 11022: hel
- 12022: comicsans (only a selection of users has access, "currently heavy WIP")
Mosh ports are 50000 + X, e.g. 61022 for hel (mosh brainscales-r.kip.uni-heidelberg.de --ssh="ssh -p 11022" -p 61022
).
If the mosh port (e.g. 61022) is already being used by someone else, try the next one (or something in the range of [50000 + X, 50000 + 1000 + X)).
mosh does not work from within eduroam.
Server Usage
The machines mentioned above are not the compute nodes themselves, but are only the frontend to access the compute cluster. Large jobs (i.e. CPU/IO hogs or long-running things) on the frontend node will be killed by the administrators. So for heavy work (read everything after the bug/syntax fixing) please dispatch execution to the cluster:
Short overview is given here. A more detailed intro can be found at [2]!
srun -p [partitionname] [your command]
The default job gets 2 CPUs (1 hyperthreaded core) and 1/4 of nodes RAM. If your code runs in parallel or needs more memory, please specify this (e.g. 2 CPUs, 16GB RAM):
srun -p compile -c 2 --mem 16G [your command]
To run the job in background, please use:
sbatch -p simulation --wrap [your command]
This creates a slurm-[jobid].out
log file containing all the console output.
In order to check the status of your jobs the command squeue
can be used. For detailed information do:
scontrol show jobid -dd <jobid>
Jobs can be aborted (cancelled) by using:
scancel [jobid]
Each Slurm partition has a defined default and max time. You can look it up with
scontrol show partition [partitionname]
If your job runs longer than the default time it will be killed automatically by Slurm unless you give
--time hh:mm:ss
so your srun/sbatch command. You can not enforce times longer than the max time of this partition.
Accessing the BrainScaleS hardware is only possible via the experiment
queue.
Spikey is accessible via spikey
queue. To select a specific spikey, the --gres=SpikeyXYZ
option is used.
DLS is accessible via dls
queue. To select a specific dls board, the --gres=[board id]
option is used.
More details can be found here [3].
As a side note the compute nodes have localtime set to UTC, so all logging times will be offset to local time. However, this should never be a problem as you should always work with non-local date/time (e.g. UNIX epoch, UTC or something similar).
X on cluster nodes
Although not recommended, some old tools require X support. Follow the instructions at [4] if you encounter such an old tool.
FPGA & ASIC
Servers, software and libraries are managed by MD.
Servers
There are several login nodes for ASIC work, e.g., vmimas
, vtitan
, vrhea
.
B.Sc. / M.Sc.
Thesis
- When thinking about how to structure your thesis, consider these internal recommendations.
B.Sc. colloquium / Theses hand-in dates
- Find a suitable date for your colloquium and other things (KM & JS & you). A lot of people have full schedules, so do it well in advance!
- Set all the dates, inform the examination office (PrĆ¼fungssek.) and make sure that Felicitas Kleveta is up2date, too.
Thesis Publication
- It is strongly suggested to upload your Thesis to the KIP publications archive https://www.kip.uni-heidelberg.de/Veroeffentlichungen/new.php
- A printed version of your thesis is required for the "Lehrstuhl" archive; ask Felicitas Kleveta for details.
Results Guidelines
Funding acknowledgement
- for work, where the researcher itself was funded from HBP: "This research has received funding from the European Unionās Horizon 2020 research and innovation programme under grant agreement Nos. 720270, 785907 and 945539 (Human Brain Project, HBP)"
- for work, where the BrainScaleS systems were used (e.g. Bachelor and Master Thesis), please add an acknowledgement for the systems: "The work carried out in this ... Thesis used systems, which received funding from the European Union's Horizon 2020 Framework Programme for Research and Innovation under the Specific Grant Agreements Nos. 720270, 785907 and 945539 (Human Brain Project, HBP)
- for the full picture: "HBP official" funding acknowledgement info
(Explanation: 720270 is HBP SGA1 (1.4.2016-31.3.2018), 785907 is HBP SGA2 (1.4.2018-31.3.2020) and 945539 is HBP SGA3 (1.4.2020 - 31.3.2023). For most-current hardware use it is sufficient to acknowledge SGA2 and SGA3.)
Administrative Stuff
Travel
- before travel: fill out travel request form (Dienstreiseantrag) and hand over to FK
- after travel: fill out reimbursement form (Dienstreiseabrechnungsformular) (provide invoices etc.) and hand over to FK
- when getting back the result: check if everything is correct, hand over to OA
The forms can be found here: https://www.kip.uni-heidelberg.de/service/verwaltung/form_forms (needs KIP login).
Vacation
- Ask your supervisor, you might be needed urgently during the desired time.
- Fill out your personal "Urlaubskarte" and get a signature from JS. If you have no contract, skip this step. Otherwise it is obligatory before you leave!
- Hand it over to FK. It will arrive in your post box a few days later with another signature. Now is a good time to note these days as vacation in your timesheet.
- Create an issue with start and due date of your absence for our vacation calendar so your colleagues know that you are on vacation.
Internships
Windows Software
If you need Windows software, e.g. to fill out forms (Word, Excel), you can log in remotely to a Windows machine:
rdesktop kipwin
Username: KIP\$your_accountname
(From the outside you can perform a port-forwarding via ssh -L 3389:kipwin.kip.uni-heidelberg.de:3389 hel
(if hel
is in your ssh config) and run rdesktop localhost
.)
Orders
- above 500ā¬ => multiple offers (print out from some comparison website) needed
- up to 2.5kā¬ => get three different offers (ask three shops for offers)
- e.g. write to first three cheapest shops listed on some comparison websites
- KIP "Kundennummer"s:
- Mindfactory: 10970071
Using The Hardware
The HBP SP9 Guidebook provides introductions to both, the Spikey system and the BrainScaleS system.
Core Hardware Components
For the BrainScaleS system, the NMPM hardware specification provides detailed information; see Jenkins doc job "HBP Spec". TODO: Write something about hardware stuff.
Data Management
The policy on F9-specific data storage is:
Mount Point | Storage Backend | Redundancy | Backup Strategy | Usable Size | User Quota | Typical Application |
---|---|---|---|---|---|---|
/afs/kip/user/USERNAME
|
HDD | RAID | yes (1 version) | 10G | Distributed home directory | |
/scratch
|
SSD | ā | ā | Scratch/temp data; might be deleted at any time | ||
/wang
|
HDD | RAID6 (2R) | ā | 13T | 0.3T | General purpose |
/ley
|
HDD | RAID6 (2R) | yes (ADSM; 1 version) | 7T | 0.1T | Important stuff (not too large!) |
/loh
|
4x Archive HDD | RAID5 (1R) | ā | 16T | 1T | Archives of machines, homes, etc. |
/fasthome
|
NVM | ā | ā | Software projects (lots of compiling) |
Software Environment
We apply container technology to improve reproducibility. Continuously built container images are deployed to /containers (e.g. /containers/stable/latest).
Software Development
Most (all?) software developers work remotely on server machines. Tools like screen or tmux can keep your session open between reconnects.
Git
As a general rule, everything should be tracked in a version control system, in our case, that is git. Period. If you hear git for the first time I highly recommend spending an hour going through a git tutorial of your choice. Here are some examples:
- The Simple Guide
- Understanding Git Conceptually Highly recommended as additional reading because it focuses on the concepts behind git
- TODO add one or two more?
The F9 gitolite server is hosted on our OpenProject server: https://openproject.bioai.eu
Whether your own work should be tracked in the group gitviz or not, should be decided together with your supervisor. But mostly, you will need to checkout some repo for read access. If your own/private work is not for the trash, you should request a repository (or contribute to an existing one) on gitviz.
Accessing external repositories using the git or ssh protocol requires the user to call socksify or tsocks:
socksify git clone git://external.server/repo.git # on wheezy default installation tsocks git clone git://external.server/repo.git # on 'new' jessie default installation
License
Keep your code contributions (L)GPL-clean because we might want to publish it on a public web site. If you copy code from somewhere, verify license compatibility and mention the source as a code comment!
Code Review (Gerrit)
For core software components (and other repositories involving multiple developers), we use gerrit as a code review tool. The server F9's Gerrit Server and a small tutorial can be found here [5].
Gerrit uses BrainScaleS or Flagship accounts for authentication. Use
export MY_BRAINSCALES_OR_FLAGSHIP_ACCOUNT=myBssOrFlagshipUsername ldapsearch -h visions-ldap -x -W -D uid=${MY_BRAINSCALES_OR_FLAGSHIP_ACCOUNT},ou=brainscales,ou=people,dc=kip.uni-heidelberg,dc=de -b ou=brainscales,ou=people,dc=kip.uni-heidelberg,dc=de uid=${MY_BRAINSCALES_OR_FLAGSHIP_ACCOUNT}
to register your account (or to verify your credentials).
Continuous Integration (Jenkins)
We encourage continuous and automatic testing, see F9's Jenkins Server. Contact YS (or ECM) for details.
Jenkins uses BrainScaleS or Flagship accounts for authentication, see Gerrit section.
Bug Reports and Project Management (OpenProject)
Bugs should be posted immediately in the OpenProject project associated with the module that produced the error. The title should be descriptive. As a general rule, the traceback is necessary for the developer to find the actual bug, but the more relevant information are given the easier the fix. Ideally, you create a minimal example that reproduces the problem and upload the script, including the module's loaded. F9's OpenProject Server
How to: Building Software
- log onto frontend (exp: hel)
> ssh hel
- Create and switch to project directory (choose path according to personal preference):
> mkdir -p code/project_name > cd code/project_name
- Load the waf build tool module. More information on waf
> module load waf
- Normally ssh will ask for the password of your private key every time you connect to another machine (e.g. during
git pull
). If you want to avoid this you can startssh-agent
, which will load/unlock your private key by asking you once and keep running in the background.
> eval $(ssh-agent)
- Add your personal ssh key agent to the agent (link -> create key?)
> ssh-add
- Choose the wanted project (exp: sthal)
> waf setup --project sthal # āāā or specify multiple projects: āāā > waf setup --project sthal --project cake
- Configure and compile on the cluster. The default job gets 2 CPUs and 2GB of RAM. If your code runs in parallel or needs more memory, please specify this (e.g. 8 CPUs (-c8) or 20GB RAM (--mem=20G). We use singularity container to manage external dependencies, see Singularity
> srun -p compile -c8 --pty singularity exec --app visionary-wafer /containers/stable/latest waf install --targets=*
- Set environment variable e.g. LD_LIBRARY_PATH or PATH to the compiled software
> module load localdir
- In order to pull and install the complete software stack such that the BrainScaleS Guidebook examples are executable follow (assuming that we build on the cluster)
> module load waf > waf setup --project=pyhmf --repo-db-url=https://github.com/electronicvisions/projects.git > singularity exec --app visionary-wafer /containers/stable/latest waf configure > srun -p compile -c8 --pty singularity exec --app visionary-wafer /containers/stable/latest waf install --targets=* > module load localdir # load the compiled software stack
- After installation changesets can be reviewed and uploaded to the Gerrit server.
Style
We have style guides for C++ and Python. [[6]]
To format your code properly, run git-clang-format and inspect/add the resulting changes before committing. To apply clang format on the current commit
> singularity exec --app visionary-defaults /containers/stable/latest git-clang-format HEAD^
There is also a convenient vim plugin [[7]]
Core Software Components
This section gives a very brief description of the main software packages developed for the NMPM-1 and Spikey systems. Short introduction on how to get and build repos https://openproject.bioai.eu/projects/waf/wiki/Wiki
Common
PyNN
A python API to specify neural networks, independent of the actual simulator used. Typical use case is to use it as frontend for simulations in nest or neuron. Documentation is available on its webpage (sort of at least) [8], in order to get started it is best to ask someone for a simple working script and trying to reproduce it with minor changes (ideally your supervisor has some propositions for you).
PyHMF
The BrainScaleS-hardware-specific PyNN implementation/backend. Maintainers: ECM
halco
Hardware coordinate system for all modern (BSS-1 and later) systems. Maintainers: ECM, CM
HostARQ
The communication protocol stack for communication between the BrainScaleS-1/2 hardware (FCP FPGAs) and host computers. Maintainers: ECM, CM, JI
Spikey
PyNN.hardware/PyHAL
The Spikey-hardware-specific PyNN implementation/backend. Maintainers: TP (backup: ECM)
SpikeyHAL
Spikey hardware access layer. Maintainers: AG or ECM
BrainScaleS-1
Cake
Calibration framework for the BrainScaleS hardware. Maintainers: SS
Euter/Ester
The C++-layer providing a representation of neuronal network descriptions (generated by PyHMF) -- used for BrainScaleS hardware. Maintainers: ECM
Marocco
The translation layer which converts abstract neuronal networks into a hardware bit stream (i.e. a valid hardware configuration) -- used for BrainScaleS hardware. Maintainers: ECM, SS
StHALbe, hicann-system
StHAL, HALbe and hicann-system are the hardware access layers -- used for BrainScaleS hardware. Maintainers: ECM, CM, SS
ESS
The Executable System Specification is a BrainScaleS hardware simulator. Originally developed as a chip verification software by AG, it evolved into a neuronal network simulator (by BV). Maintainer: BV, OJB, SS
BrainScaleS-2
hxcomm
Communication interface between HICANN-X and Host computer (via HostARQ) Maintainers: PSP, ECM
fisch
FPGA Instruction Set Compiler (adapter between a "pretty" FPGA interface and the real world) Maintainers: PSP, ECM
haldls
Hardware Abstraction Layer for BrainScaleS-2 systems. Maintainers: PSP, ECM, CM
Modeling Software Packages
SBS
Allows for simple creation and sampling of and with Boltzmann machines of PyNN neurons. See [Tutorial[9]] (requires access to gitweb) Maintainer: OJB
Documentation
Central starting points for documentation besides this page are
- SP9 specification for BrainScaleS-1
- symap2ic Wiki
- Publications, especially BSc, MSc, PhD theses
Search
Content is distributed in many different places. Some inspiration is given below:
- Search in Project Management: https://openproject.bioai.eu to find content in issues, project wikis, etc.
- Search in Code Review: https://gerrit.bioai.eu to find content in changesets
- Search in Repositories: https://gerrit.bioai.eu/gitweb?p=PROJECTNAME.git to find repository contents (also git grep or pickaxe); there is no multi-project git search
- Search in KIP Wiki: https://wiki.kip.uni-heidelberg.de (in terms of visionary content basically only the Noobies Tutorial is up2date)
- Search in Chat: https://chat.bioai.eu to find chat messages
- Search in CI: https://jenkins.bioai.eu to find CI jobs
- Search in Monitoring: https://grafana.bioai.eu/grafana/ to find Dashboards, https://brainscales-r.kip.uni-heidelberg.de:10443/ to find individual time-series metrics.