Below are my notes from the Symm V-Max Overview with Enginuity Overview session, please excuse any typographical errors as I posted this as quickly as possible.  If you see any content errors or missing information please comment.

• Symm V-Max and V-Max SE
  • Distributed Global Memory
• Symm V-Max Configuration Overview
  • 1 – 8 V-Max Engines
  • Up to 128 FC FE Ports
  • Up to 64 FiCON FE Ports
  • Up to 64 gigE FE Ports
  • Up to 1 TB of Mem
  • Up to 10 Storage Bays
  • 96-2400 Drives
  • Up to 2 PB of total capacity
• Director Boards Populated from 1 – 16 bottom to top
• Engines are populated from inside out
• Symm V-Max SE
  • Singe V-Max Engine (Engine 4)
  • Up to 16 FC FE Ports
  • Up to 8 FiCON FE Ports
  • Up to 8 gigE FE Ports
  • Up to 128 GB of Mem
  • Upto 120 Drives
• V-Max Engine Overview
  • 2 Director Boards
  • Redundant PS, battery, fans, etc…
  • FA and DA on V-Max Engine
  • Backend I/O module supports up to 4 DAEs
    • 4 Backend I/O modules will support up to 8 DAEs in a redundant configuration
  • EFD support for  200 and 400 GB drives
• FC I/O modules, FiCON I/O module, iSCSI/gigE I/O module
• Memory Config
  • 32GB, 64GB, 128GB options
  • Memory can be configured by adding memory to a existing V-Max engine or adding additional V-Max engines
  • Memory is mirrored across V-Max engines for improved availability
• Hard to show the picture I am looking at but the rear of the V-Max engine chassis has the following ports
  • Virtual Matrix interfaces
  • Backend I/O modules interfaces
  • Front End I/O modules interfaces
• Symm V-Max Matrix Interface Board Enclosure (MIBE)
• Each V-Max Engines can be directly connected to 8 DAEs
  • Depending on the configuration up to two additional DAEs can be daisy chained beyond the primary DAE
• V-Max provides 2x the ability to connect directly to drive bays over the DMX, from 64 drive loops to 128 drive loops
• I/O Flow
  • Director board has 2 quad core procs
  • CPUs are mapped as A-H slices