Quantum Loophole, Inc., an innovative developer of first-of-its-kind Gigawatt-scale master planned data center communities, today announces that Sylvia Kang has been named Chief Real Estate Officer. The move comes soon after Quantum Loophole announced the groundbreaking of its 2,100+ data center development campus at Quantum Frederick.
Sylvia brings more than 15 years of experience in data center site selection, energy and lease contract negotiations, financial analytical modeling and energy management to her role at Quantum Loophole. Hailing from CyrusOne, Microsoft, and Yahoo!, combined with previous experience from PriceWaterhouseCoopers and KPMG, Sylvia’s consultative approach and understanding of the complexities associated with high-stakes decision making positions her strengths effectively both internally and externally with clients.
At Quantum Loophole, Sylvia leads real estate and energy management. Her strategic oversight is critical to driving Quantum Loophole’s disruptive, first-of-its-kind gigawatt-scale, master plan data center communities that leverage environmental sustainability at its core. Sylvia Kang, also a notable data center tax expert, was instrumental in identifying Quantum Frederick’s 2,100+ acre site based on Maryland’s new data center tax legislation passed in July 2020. Sylvia’s passion, commitment, and excellence show consistently in the engagement and respect she offers and earns every day internally and externally.
Just recently, Quantum Loophole broke ground on the company’s massive QLoop network, a 40 (+/-) mile hyperscale fiber ring connecting the company’s 2,100+ acre Quantum Frederick data center development site in Maryland to the Ashburn, Virginia ecosystem. The network ring will offer capacity for more than 200,000 strands of fiber connecting to the Ashburn ecosystem in under one half millisecond Round Trip Time (RTT).
Read the full press release: https://quantumloophole.com/quantum-loophole-promotes-sylvia-kang-to-chief-real-estate-officer/
For more information about Quantum Loophole visit: www.quantumloophole.com.