Optocore in Melbourne Conservatorium

Conor Dunne inherited a problem. But first of all, he inherited a great situation.

Late 2022, he came on board as the Technical Resources Coordinator (Audio, Programs & Operations) for Melbourne University’s Conservatorium of Music and Victorian College of the Arts.

It’s a far cry from the high-octane hustle of the PA rental company work he was accustomed to. Or at least the location is: an architectural masterpiece completed in 2018 replete with beautifully-designed performance spaces and a generously proportioned recording studio, brimming with top-notch audio equipment, including Digico consoles.

Anyway, back to the problem.

The original audio design was based on a great idea. Using a fibreoptic loop, any performance in any of the venues could be piped into the recording studio for capture. The fibre infrastructure also supports video transport — principally an Extron complete AV integration system — and the idea was the audio could share the pipe.

Unfortunately, the loop topology wasn’t suitable. It needed all the equipment in all the venues to be powered up or else the loop would be broken. The workaround was painful: manually patch the dormant mixing console out of the loop. Even then, the workaround introduced pops and glitches into the loudspeakers, as a result of dropped ones and zeros. It was a serious enough issue for those previously in Conor’s chair to get the side eye. Something had to be done.

FROM LOOP TO STAR
Conor’s research led him to consult with old colleagues including those he knew worked with optical signal transport and Digico consoles, principally in the broadcast and stadium audio design and delivery sectors.

The answer he kept getting was: the Optocore AutoRouter.

“It effectively turns the optical loop topology into a star topology,” explains Conor Dunne. “You could liken it to an IT network switch for fibre. There are 40 slots on the back to plug in up to 20 redundant devices, such as Opticore MADI units, Digico consoles, Orange boxes or stage racks. It automatically opens up an optical loop when it sees activity and closes a loop when a mixing console is shut down, for example. In other words, it’s exactly what we need.”

The Optocore AutoRouter will take pride of place in the patch room. Where previously a loop would need to be manually created, the AutoRouter will sense activity and automatically create a loop. A stage rack or a mixing console might be powered up, for example. It sees the activity and opens the ports. Two venues could be online and two offline, and the AutoRouter will allow communication between the devices online, and even reconfigure when another venue goes online mid performance, without any interruption in audio delivery.

“We can easily have two performances in two different venues routed back to the studio for recording,” enthuses Conor Dunne. “The flexibility is amazing, and allows the Conservatorium to be operated something like it was originally intended.” 

Five year late, but very welcome.

CMI (Optocore): cmi.com.au

OPTOCORE AUTOROUTER FEATURES
Creates an intelligent star out of Optocore ring topology

Supports any Optocore system – standalone Optocore, Digico opto links or ProGrid by Clear-Com 
Also supports AVB of S6L AVID and Yamaha TWINLANe
Closes the Optocore loop automatically when active device is switched on/off, added or disconnected
Plug ’n’ play
Up to 20 x dual Link duplex Ports for Optocore protocol connection
No fan 
Dual power supply with automatic switchover
2RU Chassis