Under the Quantum Technology Roadmap, the Philippine Council for Industry, Energy, and Emerging Technology Research and Development (PCIEERD) initiated its first spherical of analysis funding in 2021 to assist tasks that strengthen quantum research infrastructure.
PCIEERD is a component of the Philippines’ Department of Science and Technology (DOST).
With the funding, the DOST Advanced Science and Technology Institute (DOST-ASTI) has established the Quantum Innovation Laboratory (QIL) in 2022 to focus analysis on creating quantum circuit simulation instruments utilizing high-performance computing methods.
The roadmap has aimed to place the Philippines as a key participant in quantum computing in Southeast Asia with its personal functioning community and analysis capabilities.
Realising extra wants to be accomplished to obtain the goal, the roadmap has been up to date as of October 2025, with the timeline pushed from 2030 to 2035.
Quantum R&D
Quantum computing is without doubt one of the eight high-impact programmes launched in February 2025 to remedy urgent issues resembling cybersecurity, local weather change, and extra, says DOST PCIEERD’s Deputy Executive Director and Officer-in-charge, Office of the Executive Director, Engr Niñaliza H Escorial, to GovInsider.
“Since 2024, under the Emerging Technologies sector, we have identified Quantum technology as one of our priorities in our call for proposals, as well as under our Human Resource Development Programme (HRDP),” Escorial explains.
Under the HRDP element, Researchers on Industry, Energy, Emerging Technologies – Opening Opportunities for Learning (RIEETOOL) have been supporting universities in a coaching workshop on Quantum Computing for Instruction, Assessment and Research, which yielded a spread of optimistic outcomes.
In March 2025, in partnership with the Technological Institute of the Philippines (TIP), DOST-PCIEERD launched the Quantum and Intelligent Systems Laboratory for Power Engineering (QISLaP), the nation’s first facility devoted to making use of quantum computing in power methods.
“The initiative aims to strengthen the Philippine energy sector by using advanced analytics, artificial intelligence (AI), and quantum-inspired tools to improve grid reliability, renewable energy integration, and power system planning, while promoting the development of localised, homegrown solutions,” Escorial says.
Developing experience
Escorial notes that the nation is wanting to strengthen its place by creating experience in quantum mechanics, optics, condensed-matter physics, and quantum algorithms.
She acknowledges that the largest problem has been having a restricted pool of educated quantum specialists, in addition to laboratory and computing amenities, highlighting the necessity for regular funding.
Since quantum applied sciences require robust physics and math foundations, investing in human capital by way of undergraduate analysis, graduate scholarships, and postdoctoral fellowships is essential, Escorial provides.
“This will prepare scientists and engineers to advance into areas like quantum communication, computation, and sensing.”
“We need stronger links with industry and international partners to turn research into real-world applications,” Escorial says.
She factors out that the Philippines is addressing to these challenges by coaching extra folks in quantum science by way of scholarships, graduate research, and analysis and improvement (R&D) programmes.
In phrases of native assist, DOST-PCIEERD is funding college analysis, creating laboratory amenities, and supporting capacity-building programmes, whereas selling collaboration with native and worldwide companions by way of occasions such because the Quantum Information, Science, and Technology Conference, Escorial says.
Integrating into different digital initiatives
She provides that quantum computing might be built-in with different digital initiatives resembling AI, the Internet of Things (IoT), and sensible agriculture methods.
“PCIEERD sees quantum computing as a powerful tool to enhance other digital technologies,” Escorial says.
When mixed with AI, it accelerates complicated duties resembling predictions and optimisation, and with IoT, it enhances the intelligence and safety of real-time methods.
Hence, PCIEERD’s programmes facilitate collaborative analysis, pilot tasks, and coaching to leverage these applied sciences collectively for nationwide innovation and industrial competitiveness, she provides.
Escorial believes that quantum computing might reshape the Philippines’ global competitiveness and strengthen its place in technological management.
“The Philippines views quantum computing as an important opportunity to enhance its global competitiveness,” she says.
However, the rapid focus will not be on creating quantum {hardware}, however on constructing robust native capability for information creation in quantum science by way of analysis, training, and workforce improvement.
She provides that by 2035, the nation goals to be internationally recognised for its scientific contributions and a well-trained quantum workforce.
“Through strong international collaborations and coordinated national programmes, the Philippines can contribute meaningfully to the global quantum ecosystem and support the long-term development of quantum technologies,” she says.