Optimize Beyond Limits
Optimize Beyond Limits
Optimize Beyond Limits
Optimization Solutions
Optimization Solutions
Optimization Solutions
Accelerate efficiency, reduce costs, and unlock new possibilities with BEIT’s advanced QUBO Solver and Simulated Annealer—empowering businesses across industries to solve their most complex optimization challenges.
Accelerate efficiency, reduce costs, and unlock new possibilities with BEIT’s advanced QUBO Solver and Simulated Annealer—empowering businesses across industries to solve their most complex optimization challenges.
Accelerate efficiency, reduce costs, and unlock new possibilities with BEIT’s advanced QUBO Solver and Simulated Annealer—empowering businesses across industries to solve their most complex optimization challenges.
Accelerate efficiency, reduce operational costs, and unlock new possibilities across your entire organization with BEIT’s advanced QUBO Solver and Simulated Annealer optimization tools. Inspired by quantum computing principles, our solutions solve complex business challenges faster and more effectively than traditional methods, enabling SMEs and enterprises alike to streamline logistics, optimize resource allocation, enhance profitability, and elevate customer satisfaction.
Accelerate efficiency, reduce operational costs, and unlock new possibilities across your entire organization with BEIT’s advanced QUBO Solver and Simulated Annealer optimization tools. Inspired by quantum computing principles, our solutions solve complex business challenges faster and more effectively than traditional methods, enabling SMEs and enterprises alike to streamline logistics, optimize resource allocation, enhance profitability, and elevate customer satisfaction.
Accelerate efficiency, reduce operational costs, and unlock new possibilities across your entire organization with BEIT’s advanced QUBO Solver and Simulated Annealer optimization tools. Inspired by quantum computing principles, our solutions solve complex business challenges faster and more effectively than traditional methods, enabling SMEs and enterprises alike to streamline logistics, optimize resource allocation, enhance profitability, and elevate customer satisfaction.
Logistics & Supply Chain
Vehicle Routing for Deliveries: Solving complex delivery route plans for fleets (e.g. trucks, vans) to reduce travel distance, fuel use, and delivery times.
Last-Mile Delivery Optimization: Coordinating parcel deliveries in urban areas (vans, bikes, drones) for fastest routes and minimal traffic delays.
Warehouse Picking Routes: Optimizing in-warehouse picking sequences for orders to shorten worker travel distance (improving efficiency by ~45% in some cases).
Logistics & Supply Chain
Vehicle Routing for Deliveries: Solving complex delivery route plans for fleets (e.g. trucks, vans) to reduce travel distance, fuel use, and delivery times.
Last-Mile Delivery Optimization: Coordinating parcel deliveries in urban areas (vans, bikes, drones) for fastest routes and minimal traffic delays.
Warehouse Picking Routes: Optimizing in-warehouse picking sequences for orders to shorten worker travel distance (improving efficiency by ~45% in some cases).
Logistics & Supply Chain
Vehicle Routing for Deliveries: Solving complex delivery route plans for fleets (e.g. trucks, vans) to reduce travel distance, fuel use, and delivery times.
Last-Mile Delivery Optimization: Coordinating parcel deliveries in urban areas (vans, bikes, drones) for fastest routes and minimal traffic delays.
Warehouse Picking Routes: Optimizing in-warehouse picking sequences for orders to shorten worker travel distance (improving efficiency by ~45% in some cases).
Telecommunications & Networks
Network Design & Expansion: Optimizing the placement of new telecom infrastructure (cell towers, 5G small cells, fiber routes) to maximize coverage and data capacity for a given budget.
Frequency Channel Allocation: Assigning frequencies or channels to cellular network transmitters to minimize interference (a complex graph-coloring optimization).
Software/Hardware Design Optimization: (Long-term) Using QUBO-based solvers for complex design tasks like VLSI chip layout or optimal network topology configuration.
Telecommunications & Networks
Network Design & Expansion: Optimizing the placement of new telecom infrastructure (cell towers, 5G small cells, fiber routes) to maximize coverage and data capacity for a given budget.
Frequency Channel Allocation: Assigning frequencies or channels to cellular network transmitters to minimize interference (a complex graph-coloring optimization).
Software/Hardware Design Optimization: (Long-term) Using QUBO-based solvers for complex design tasks like VLSI chip layout or optimal network topology configuration.
Telecommunications & Networks
Network Design & Expansion: Optimizing the placement of new telecom infrastructure (cell towers, 5G small cells, fiber routes) to maximize coverage and data capacity for a given budget.
Frequency Channel Allocation: Assigning frequencies or channels to cellular network transmitters to minimize interference (a complex graph-coloring optimization).
Software/Hardware Design Optimization: (Long-term) Using QUBO-based solvers for complex design tasks like VLSI chip layout or optimal network topology configuration.
Agriculture & Food Industry
Crop Planting & Rotation Plan: Optimizing which crops to plant in which fields and when, to maximize yield and soil health while meeting market demand.
Irrigation Scheduling: Calculating optimal irrigation times and amounts for fields or greenhouses to minimize water use while maintaining crop health.
Agricultural Supply Chain: Optimizing the collection and distribution of produce from farms to markets or processing facilities to reduce spoilage and cost.
Agriculture & Food Industry
Crop Planting & Rotation Plan: Optimizing which crops to plant in which fields and when, to maximize yield and soil health while meeting market demand.
Irrigation Scheduling: Calculating optimal irrigation times and amounts for fields or greenhouses to minimize water use while maintaining crop health.
Agricultural Supply Chain: Optimizing the collection and distribution of produce from farms to markets or processing facilities to reduce spoilage and cost.
Agriculture & Food Industry
Crop Planting & Rotation Plan: Optimizing which crops to plant in which fields and when, to maximize yield and soil health while meeting market demand.
Irrigation Scheduling: Calculating optimal irrigation times and amounts for fields or greenhouses to minimize water use while maintaining crop health.
Agricultural Supply Chain: Optimizing the collection and distribution of produce from farms to markets or processing facilities to reduce spoilage and cost.
Smart Cities & Public Sector
City Traffic Flow Management: Optimizing city-wide traffic patterns by coordinating traffic signals and perhaps routing suggestions to drivers to alleviate congestion.
Disaster Evacuation Planning: Computing efficient evacuation routes and plans for cities or campuses in case of emergencies (hurricanes, earthquakes), taking road capacities into account.
Infrastructure Maintenance Scheduling: Prioritizing and scheduling maintenance for public infrastructure (roads, bridges, pipelines) to minimize impact on traffic and budgets.
Garbage Collection Routing: Planning optimal garbage truck routes and schedules for waste collection in cities to cover all areas with minimal distance traveled (a variant of VRP).
Smart Cities & Public Sector
City Traffic Flow Management: Optimizing city-wide traffic patterns by coordinating traffic signals and perhaps routing suggestions to drivers to alleviate congestion.
Disaster Evacuation Planning: Computing efficient evacuation routes and plans for cities or campuses in case of emergencies (hurricanes, earthquakes), taking road capacities into account.
Infrastructure Maintenance Scheduling: Prioritizing and scheduling maintenance for public infrastructure (roads, bridges, pipelines) to minimize impact on traffic and budgets.
Garbage Collection Routing: Planning optimal garbage truck routes and schedules for waste collection in cities to cover all areas with minimal distance traveled (a variant of VRP).
Smart Cities & Public Sector
City Traffic Flow Management: Optimizing city-wide traffic patterns by coordinating traffic signals and perhaps routing suggestions to drivers to alleviate congestion.
Disaster Evacuation Planning: Computing efficient evacuation routes and plans for cities or campuses in case of emergencies (hurricanes, earthquakes), taking road capacities into account.
Infrastructure Maintenance Scheduling: Prioritizing and scheduling maintenance for public infrastructure (roads, bridges, pipelines) to minimize impact on traffic and budgets.
Garbage Collection Routing: Planning optimal garbage truck routes and schedules for waste collection in cities to cover all areas with minimal distance traveled (a variant of VRP).
See BEIT Optimization in Action
See BEIT Optimization in Action
See BEIT Optimization in Action
Explore firsthand how our quantum-inspired optimization solutions can solve your unique business challenges. Book a personalized demo today and discover how BEIT can transform your decision-making process.
Explore firsthand how our quantum-inspired optimization solutions can solve your unique business challenges. Book a personalized demo today and discover how BEIT can transform your decision-making process.
Our offices
Poland:
Mogilska 43
31-545 Kraków
Canada:
101 College St
Suite H230-1
Toronto
USA:
7757 Baltimore Avenue
Ste 1603
20740 MD College Park
Links
© 2025 BEIT Inc.
Our offices
Poland:
Mogilska 43
31-545 Kraków
Canada:
101 College St
Suite H230-1
Toronto
USA:
7757 Baltimore Avenue
Ste 1603
20740 MD College Park
Links
© 2025 BEIT Inc.
Our offices
Poland:
Mogilska 43
31-545 Kraków
Canada:
101 College St
Suite H230-1
Toronto
USA:
7757 Baltimore Avenue
Ste 1603
20740 MD College Park
Links