Information on computers and servers at the BIOP, protocols, setups and howto's.
= Remote control of BIOP Computers =
If you want to connect remotely to a computer we recommend using **Remote Desktop Manager** and not TeamViewer.
# Ask for the remote access to a computer by asking to a BIOP staff (via e-mail or in person)
# Start Remote Desktop Manager on your local computer and enter the address using the AD-name (from the table below).
| Windows | the program is already installed |
| Mac | install the [[ https://itunes.apple.com/us/app/microsoft-remote-desktop/id1295203466?mt=12 | windows remote desktop client ]] |
|Linux | install the client [[ https://remmina.org/how-to-install-remmina/ | Remmina ]] |
(IMPORTANT) **Logging off your remote session** {F21760948, size=full}
(IMPORTANT) Ex: To connect to the //**CF01 - Zeiss LSM 700 IN1**// enter // **PTBIOPPC4**//
(NOTE) For MAC users, if the AD-name is not sufficient, try the AD-name followed by intranet.epfl.ch , ie //**SV-01-183.intranet.epfl.ch**//
(NOTE) From outside EPFL: Use the [[ https://www.epfl.ch/campus/services/ressources-informatiques/network-services-reseau/acces-intranet-a-distance/clients-vpn-disponibles/ | VPN client]]
and enter the AD-name followed by intranet.epfl.ch , ie //**SV-01-183.intranet.epfl.ch**//
== SafeNet ==
PCs that are not running Windows 10 are migrated to a SafeNet which needs a special protocol for remote connections, Please see our [[ bioimaging_and_optics_platform_biop/computers-servers/safenet ]] page.
//BTW To know who's logged in on any computer, type `qwinsta /server:Computer_name` in a windows command prompt//
= Computers List =
|AD Name| Common Name| SafeNet Name |
|-----------|------------------|-----------------|
|Microscopes|
|--------------|
|SV-01-183|CF01 - Zeiss LSM 700 IN1|PTBIOPPC4|
|SV-01-186|CF02 - Zeiss LSM 700 IN2|PTBIOPPC5|
|SV-01-184|CF03 - Zeiss LSM 700 UP1|PTBIOPPC6|
|SV-01-185|CF04 - Zeiss LSM 700 UP2|PTBIOPPC7|
|SV-01-371|CF05 - Zeiss LSM 710|
|SV-01-312|CF07 - Leica SP5 Multiphoton|PTBIOPPC9|
|SV-01-309|CF10 - Visitron CSU-W1|
|SV-01-316|CF13 - Leica SP8 FLIM|
|SV-01-317|CF13P - Leica SP8 FLIM SymPhoTime|
|SV-01-335|CF14 - Leica SP8 STED 3X|
|SV-01-367|CF15 - Leica SP8 Upright I|
|SV-01-368|CF16 - Leica SP8 Upright II|
|SV-01-369|CF17 - Leica SP8 Inverted I|
|SV-01-376|CF18 - Nikon CSU-W1|
|SV-01-334|WF01 - Leica DM5500|
|SV-01-212|WF03 - Olympus CELL R|PTBIOPPC1|
|SV-01-272|WF04 - Olympus CELL XCELLENCE|PTBIOPPC2|
|SV-01-121|WF06 - Olympus AX70|
|SV-01-079|WF07 - Zeiss Axioplan|
|SV-01-377|WF08 - NIKON Stereology|
|SV-01-261|WF09 - Nikon SIM/STORM|
|SV-01-273|WF10 - Olympus Slide Scanner 1|
|SV-01-015|WF12 - ZEISS Lightsheet Z1 Acquisition|
|SV-01-013|WF12P - ZEISS Lightsheet Z1 Processing|
|SV-01-117|WF13 - Olympus Slide Scanner 2|
|SV-01-333|WF14 - Zeiss PALM MicroBeam|PTBIOPPC10|
|SV-01-366|WF15 - Operetta CLS|
|SV-01-381| LSS Acquisition |
|SV-01-154| LSS Analysis |
| AD Name | Common Name | Inventory Number |
|------------|-------------------|----------------------|
| BIOP PCs |
|------------|
| SV-01-308 | PC64-2 - Pink Panther | B083558 |
| SV-01-250 | PC64-3 - Red Panda| B067222 |
| SV-01-222 | PC64-4 - Squared Cell| B062554 |
| SV-01-026 | PC64-6 - Mantis Shrimp| B087963 |
| SV-01-090 | PC64-7 - Peacock Spider| B202725 |
| SV-01-098 | PC64-? - Fluorescent Platypus | B128909 |