Geopolymer concrete has gained significant attention in recent years as an effective and sustainable alternativetoconventional Portland cement concrete. Its lower carbon footprint and reduced energy demand make it an environmentallyfavorable option, while its ability to incorporate industrial by-products such as fly ash, metakaolin, and ground granulatedblastfurnace slag enhances its sustainability. In addition to these environmental benefits, geopolymer concrete reinforcedwithgradedfibers exhibits improved mechanical properties, including higher compressive and flexural strength, better durability, andenhanced resistance to fire when compared to traditional concrete. This study focuses on evaluating the strengthvariationofgeopolymer concrete incorporating fibers of different lengths (graded fibers). The outcomes of this investigationare expectedtosupport engineers and researchers in developing optimized structural components, particularly where higher strength, improvedload-carrying capacity, and long-term performance are critical for practical applications in moderninfrastructure.Keywords: Geopolymer Concrete, Graded Fiber, Slump Value, Compressive Strength.