This is a fan-made archive, not affiliated with Diane Paulus, Randy Weiner, or the official Phantom of the Opera production at 218 W. 57th. By entering, you acknowledge that.
Everything documented here is drawn from primary sources — published interviews with the production team, on-the-record reviews, press materials, and observable production detail. Information may still be inaccurate. Corrections are welcome.
Six audience groups. Sixty people each. Five floors and a roof. One former art-supply store on 57th Street. Twenty-eight live actors wired up and wandering the building. More than a thousand hidden speakers. One 800-pound chandelier with its own automation system. And a piece of custom software running thirty-something clocks at once to keep the whole thing from falling apart. This is how Masquerade works.
Traditional Broadway shows run on a stage manager calling cues into a headset while a conductor leads the orchestra and a mixer rides faders at the back of the house. Masquerade has none of that — no conductor, no live mixer, no central audience. The brain is a piece of custom software called ShowPulse, built by sound designer Brett Jarvis and programmer Sean Beach, running on redundant Mac Minis tucked into a rack room and talking to every other system in the building.
Click any node to read what the connection does and where it's sourced.
An 1897 landmark — once the headquarters of the American Society of Civil Engineers, then a Schrafft's, then Lee's Art Shop until 2016. Four retail floors, a basement, a rooftop, and not a single overhead rigging point. PRG built freestanding truss to hang every light. Ben Stanton's team lit thirty distinct spaces inside; the audience moves through them in a different order every pulse.
When the actor playing Christine sings, her voice takes an eleven-step journey before it reaches your ear — earset microphone, bidirectional bodypack, digital antenna, Spectera base station, Dante network, Yamaha Rivage DSP, Biamp Tesira matrix, back onto the network, LD Systems amplifier, speaker. Walk it node by node.
A typical Broadway musical has maybe a dozen speakers — a flown line array on each side of the proscenium, some fills, some monitors. Masquerade has more than a thousand. Hidden in chandeliers, tucked under floorboards, mounted in unistrut, embedded in ceilings, weatherproofed for the rooftop. Brett Jarvis and Lee McCutcheon flew to Germany to audit the LD Systems portfolio in person before signing off on the install.
During the fly-tower scene — a ballet performance below, a fight on the rigging above — Masquerade simulates both at once with two banks of LD Systems loudspeakers tucked out of view. ~50 fire down through the floorboards (the orchestra below); ~40 fire up toward the ceiling (pulleys, sandbags, ropes overhead).
Source · PAS · Precision Audio Services, Jan 2026
If Masquerade has no conductor and no live mixer, how does every musical entrance land on the right beat in the right room with the right actor? Timecode. One global clock, six pulse-specific clocks, twenty-four geographic zones — thirty-one streams running at once. Plus a ShowPulse feature called Divergences that recalls a different fader / EQ / dynamics / effects chain per actor per role per pulse.
Every other clock derives from this one.
"The benefit of a geographic timecode zone is that since a song will occur in some area at least six times, we are able to reuse the same code over and over, making programming more manageable."
— Sean Beach, ShowPulse architect · Precision Audio Services, Jan 2026
Forty-two wireless channels — twenty-eight actor mics plus fourteen-ish in-ear monitor feeds — running on Sennheiser's brand-new Spectera platform in one of the densest RF environments on Earth. The production turned the upper floors of 218 W. 57th into a Faraday cage to give RF coordinator Cameron Stuckey enough clean spectrum to run. Stuckey went on to coordinate Super Bowl LX months later.
"[Masquerade] required high-density, bidirectional wireless in a complex structure environment, utilizing every feature of Spectera — device capacity, multi-zone operation, modulation diversity. It was the best demonstration of the system's stability."
— Cameron Stuckey, RF Coordinator · Sennheiser, 20 Feb 2026
Cameron Stuckey was the lead RF coordinator for Super Bowl LX, just months after Masquerade.
Ben Stanton's brief was deceptively simple: light at least thirty spaces across four floors and a rooftop, make each room feel like a different play, hide the rigs. His tool of choice was the Ayrton Diablo S — a 300-watt LED profile small enough to disappear into a chandelier crystal and bright enough to flood a ballroom. They were hidden in plaster ceilings, on unistrut runs, in cornice molding, on PRG-built freestanding truss, and inside the chandelier itself.
300 W LED Moving Profile · Made in France
"It was like doing many plays at once. We lit at least 30 spaces, some with a very high level of theatricality, some very experimental and some in-between."
— Ben Stanton, Lighting Designer · ACT Entertainment, 24 Mar 2026
Production designer James Fluhr named the chandelier after his aunt — the first person to take him to Phantom, and someone who never got to see the original Broadway run. 'Now, in Masquerade, she can glow every night.' Eight hundred pounds. Four concentric rings, ranging from 1.5 feet across at the top to 13 feet across at the bottom. More than 30,000 hand-laid Preciosa crystals. Each ring on its own automated winch. A 6-foot-per-second drop that smoothly transitions into slow motion. LED pixel tape inside the largest ring for flame simulation. Steam.
"Inside the larger ring are smoke and lighting effects, designed to create the appearance that the chandelier is on fire. Steam is released, and LED pixel tape creates a flickering effect to simulate flames. It was an effective way to re-create the iconic moment from the theatrical production."
— Troy Atkinson, Managing Director, PRG · 27 Feb 2026
The audience walks down through foggy tunnels into the underground lake. A gondola is waiting on a black floor. It glides silently across during Music of the Night — no track, no overhead wire. A strip of magnetic tape adhered to the floor; a laser-eye sensor on the boat's underside reads the strip; magnets along the tape trigger acceleration, deceleration, stops. The same passive logic warehouse robots use. When the director wants to change the path, the crew peels up the tape and re-lays it.
"You can literally adhere the magnetic tape to the floor, and the tracking system's laser eye follows that strip. The advantage of this over a traditional deck track is significant — if adjustments are needed in the boat's movement, you can simply peel up the tape and reattach it."
— Mark Peterson, GM Sales & BD, PRG · 27 Feb 2026
Same passive logic warehouse AGVs (automated guided vehicles) use. Sensor manufacturer not publicly disclosed.
Some of what audiences see is impossible — or rather, possible in a way that requires not telling them how it's done. Skylar Fox is the Magic and Visual Effects Designer. A rotating mirror in which Christine sees the Phantom only to turn around and find him gone. The Phantom appearing from a headboard and vanishing from a bed. An automated mannequin dance sequence. The specific pyro vendor, the fog and haze machine models, and the exact illusion mechanisms are — appropriately for magic — not in the public record.
ShowPulse switches automatically between several hundred discreetly mounted IP cameras as each pulse moves through the building. The control-room operator and each floor's stage manager see the right view at the right moment — whichever feed is most useful right now. The chandelier cameras are different: hard-wired, not networked, and latency-free, because automated motion has to be monitored with no delay between what happens in the room and what the operator sees on screen.
"The cameras pointed at the chandelier are hard-wired and latency free, to ensure the necessary precision in monitoring its motion."
— Brett Jarvis, Sound Designer & Head of Show Control · Precision Audio Services, Jan 2026
Six pulses. Sixty audience each. Fifteen-minute stagger. Three hundred sixty spectators a night, snaking through five floors of a 128-year-old landmark building. The choreography that's not on stage is just as engineered as the show itself. Distributed power centers, one per floor or per part of a floor. A fire-alarm interlock that mutes the entire PA except the emergency-paging paths. HVAC coordinated with show cues because the HVAC equipment is on the roof and so are the songs.
Per performance: 6 pulses · 60 audience each = 360 spectators · 28 live miced actors · 15-minute stagger
"There were days where we just moved 60 people around the building to understand timings… the final product was coordinated down to the thirtieth of a second."
— Sean Beach · Precision Audio Services, Jan 2026
A show this engineered is also this human. Hundreds of people across more than a dozen disciplines built Masquerade together. The technical core is a quiet UNCSA dynasty — twelve School of Design & Production alumni spanning four decades, from Brett Jarvis (Sound Design '97) and Kate Foster (Scenic Arts '95) through Darian Horvath (Lighting '22) — built or operate the systems running the show every night.
Every piece of equipment, every quote, every figure on this page traces back to a publicly available source. The bibliography is below. Items marked “not publicly disclosed” mean exactly that — the production has not released the information through trade press or press releases as of the page's last update.
Tooltip demo: hover or focus any short key here — PAS, PRG, AH, Senn2, BW — and click to pin it to the footer.