Global Partnership for Education GPE seeks to raise $15 billion in grants and innovative financing over 2026-2030 to help nearly 750 million children get a better education in 96 countries
About GPE - Global Partnership for Education GPE is the largest global fund solely dedicated to transforming education in lower-income countries, and a unique, multi-stakeholder partnership We work to deliver quality education so that every girl and boy can have hope, opportunity and agency
Careers - Global Partnership for Education Explore a compilation of career opportunities at GPE and in the education sector in partner organizations GPE is the largest global fund and partnership solely dedicated to transforming education in lower-income countries
Contact us - Global Partnership for Education GPE brings together five categories of partners: lower-income countries, donors, multilateral organizations and regional banks, civil society organizations and private sector foundations
How to apply for grants - Global Partnership for Education GPE offers different types of grants to support education system transformation in partner countries View the pathway to grant funding and access relevant documents to help prepare grant applications
How we work - Global Partnership for Education GPE works to transform education systems holistically, based on a deep understanding of country context and evidence Strengthening government-led education systems is crucial to realize the ambition of GPE 2025
Access to education - Global Partnership for Education GPE expands access to education for highly marginalized children across all partner countries Despite dramatic improvements over the past decades, progress towards achieving universal access to education has slowed, and 272 million children are still out of school
GPE 2025 - Global Partnership for Education GPE 2025 promotes more equitable, eficient domestic education spending while offering innovative financing mechanisms sought by partner countries, including a matching fund and debt forgiveness mechanisms, as well as expanding the impact of the successful GPE Multiplier