TGad Architecture Discussion Topics

1. TGad Architecture Discussion Topics Authors: Date:2012-01-04 Mark Hamilton, Polycom, Inc.

2. Abstract This document contains topics for discussion concerning the architectural models introduced by the 802.11ad Amendment, Draft 5.0 Mark Hamilton, Polycom, Inc.

3. Outline • Multiple MAC (entities) sharing one PHY (sub-clause 4.9.3) • Multi-band operation (sub-clause 4.9.4) • Transparent FST • Non-transparent FST Mark Hamilton, Polycom, Inc.

4. Multiple MAC (entities) sharing one PHY • Confirm the following advantages over completely separate STAs: • One Association exchange (but still individual security exchanges) • Power Save transitions (in/out) together, in one exchange • Single ADDTS exchange • Share beamforming • Single AID (and ATIM behavior) • Single MMAL Cluster setup and maintenance • Other (significant) advantages? Mark Hamilton, Polycom, Inc.

5. Multiple MAC (entities) sharing one PHY (cont) • Advantages over single STA (single MAC entity, and one PHY): • ??? • Any importance/impact on FST? • Is this needed? • Note that this concept has very few references in the Draft: • Figure 4-16a • last sentence of the first paragraph of 4.9.3, and the paragraph at lines 21-23 in 4.9.3 • 7.3.5.16 • Three other minor references • Can keep MM-SME and related coordination concepts for multiple STAs Mark Hamilton, Polycom, Inc.

6. Multi-band operation, transparent FST • Confirm: Multiple MACs can use separate PHYs, and be coordinated by MM-SME, and participate in an MMAL Cluster, and do FST (right?) • Is there an architecture of a single MAC using multiple PHYs? • See 4.9.4 (page 51 line 20), “A multi-band capable device _can_ also support multiple MAC addresses …” (emphasis added) • If the device does not use multiple MAC addresses, then this is meant to be multiple MAC entities which use the same MAC Address, right? (Not a single MAC entity with multiple PHYs?) Mark Hamilton, Polycom, Inc.

7. Multi-band operation, transparent FST (cont) • Confirm: there are multiple MAC entities, but only one each of: • MAC Address • MAC_SAP • RSNA management • What is unique per MAC entity? Is that valuable, or more annoying than helpful (more state to move at FST, etc.)? • What is the advantage over a single MAC entity? Mark Hamilton, Polycom, Inc.

8. Multi-band operation, transparent FST (cont) • How about a single MAC entity, with a single PHY, where the PHY can do multi-bands? • Similar to 802.11n’s PHY, which combined _and_ extended the 2.4GHz and 5GHz PHYs • Still need extensions to support dynamic mixing of successive frames (session operation in multiple bands and/or channels simultaneously), minor clarification that Association covers all PHYs at once, etc. • So, keep 11ad signaling to setup/manage the multi-band link (Multi-band element, On-channel tunneling, etc) • But, simplify the MAC architecture significantly Mark Hamilton, Polycom, Inc.

9. Multi-band operation, non-transparent FST • What are the differences between this is other (existing) tunneling methods, 802.21, etc.? • If MAC Addresses change (at FST), upper layers need awareness of it, and methods to handle it. This is not a MAC function, but needs MAC facilities to support it (and optimize the speed of session transfers). • 802.11ad supplies those facilities. Needs upper layer to complete the solution (right?) Mark Hamilton, Polycom, Inc.