As a Platform/Technical Product Manager for our UPI stack, you will be responsible for defining and driving the product vision, strategy, and roadmap for our UPI platform, serving the needs of different personas. You will work closely with engineering, design, compliance, and business teams to ensure the delivery of a high-quality, scalable, and reliable payment solution that meets the needs of our users and partners. This role requires a deep understanding of the payments ecosystem, user experience, and technical architecture.
Responsibilities:
- Planning - Understand the UPI ecosystemDo market research on different models of UPI implementation and understand upcoming feature on UPIWork with banks, NPCI, regulators to identify pain points and opportunitiesDefine the goals, user personas and use cases for capabilities to be built Define the UX experiences and capabilities to be built for various personas such as Retail Users, Customer Services, Business Operations etc
- Prioritization & Execution Own the roadmap for one or more part of the productApply the lens of strategy, goals and Tachyon s purpose to prioritize problems to solve. Slice the capabilities into smaller rapidly shippable featuresWork very closely with Engineering, Operations, Design, Customer Success, Client and Sales teams to get things done.
- CommunicationEvangelize and communicate the product plan.
- Influence Engineering Teams and other stakeholders
Skills:
- Strong Understanding of System Design
- Excellent communication (written and verbal) and interpersonal skills
- An engineering / technical background that will allow you to reason about product trade-offs and make good choices with minimal inputs from engineers
- Adapting to complex situations with an aim to achieve business goals
Experience:
- Prior Experience in UPI and other Payment Systems highly desirable
- At least 3+ years of experience in a Product Management role
Education & Qualification:
- An engineering / technical background that will allow you to reason about product trade-offs and make good choices with minimal inputs from engineers
