Purpose

Duplicate the environment of OSC Lab. in New Jersey.

Focus on O-DU integration and security tests.

Status, Under construction

• Ongoing installation of O-CU.
• O-DU-Low and O-DU High Integration (G Rel.) is ongoing.
• Currently, O-DU integration is the top priority.
• TM500 Lite is ready to use.

Access

Access is limited and resource sharing is not yet available.

For lab access, please send an e-mail to the lab contact, provide, your name, email, business affiliation if any, and reason for access. This is often in relation to an OSC project (Projects)  and therefore is facilitated through the Project Technical Lead (PTL).

Contact:     Professor Ray-Guang Cheng

Email:         crg@gapps.ntust.edu.tw

Diagram

Lab 1 - NTUST Lab

Lab 2 - NYCU Lab

TBA

Lab 3 - CHT Lab

Lab 4 - Auray Lab

OSC Taiwan Lab. Elements

Physical Servers

Virtual Machines

Software Deployment Allocations

O-DU (High and Low)

The integration of O-DU Low (FlexRAN 21.11) and O-DU High in Rel. G is ongoing.

O-CU

The installation of commercial O-CU provided by Radysis is ongoing.

Partial integration of O-DU High with OAI CU is done.

Near-RT RIC

The Rel. F Near-RT RIC is currently deployed in an OpenStack environment. 

The Rel. F Near-RT RIC can connect to Viavi RIC Test (v. 1.5)

5G Core

free5GC by NYCU, Taiwan, is tested.

SABox by Nokia Lab., France, is used.

Software Simulators

Viavi TeraVM RIC Tester v. 1.5, is used as the RAN simulator for emulating the E2 Nodes for Near-RT RIC integration test. 

Hardware Simulations

Viavi TM500 is provided in NTUST Lab. (TM500 Lite), ChungHwa Telecom (CHT) Lab. and Auray Lab. for O-DU testing (the same as that used in OSC New Jersey Lab.)

Specialty Hardware

Nokia IXR 7250 Fronthaul Gateway is used (the same as that used in OSC New Jersey Lab.)

UpiSpace Fronthaul Gateway is used

Foxconn Indoor O-RU (RPQN-7801, 3.7-3.8GHz 4T4R)