AutoStore (Cubic Storage)

Maximum storage density of 85-90% utilization enables facilities to store 4-5x more inventory in the same footprint compared to shelving. The elimination of aisles and vertical stacking to 16+ levels maximizes every cubic foot of space. Small footprint makes AutoStore viable in expensive urban real estate or constrained facilities where expansion is impossible.

Scalability and flexibility allow systems to start with as few as 1,000 bins and grow to 100,000+ bins incrementally. Modular expansion adds bins, robots, and ports without disrupting existing operations. Relocatable design enables systems to be moved to new facilities if needed, protecting the investment.

Energy efficiency results from lightweight robots (66 pounds) consuming minimal power compared to traditional automation. Quiet operation and minimal heat generation reduce facility requirements. No special flooring or structural reinforcement needed in most facilities, lowering installation costs.

E-commerce fulfillment uses AutoStore for storing thousands of SKUs in small bins, with robots delivering bins to picking stations for order fulfillment. High SKU density supports diverse product assortments in minimal space. Scalable throughput grows by adding robots and ports as order volumes increase.

Spare parts distribution in automotive, industrial, and electronics sectors leverages AutoStore's density for managing thousands of slow-moving SKUs. Small parts storage in bins maximizes space efficiency. Rapid retrieval enables quick order fulfillment when parts are needed.

Pharmacy and healthcare operations use AutoStore for medication storage and order fulfillment. Controlled access and automated tracking support regulatory compliance. Compact footprint fits in constrained hospital or pharmacy spaces. FIFO rotation ensures proper product dating.

Grocery micro-fulfillment deploys AutoStore in urban stores or dark stores for online grocery fulfillment. High density enables thousands of SKUs in small footprints. Ambient and refrigerated configurations support diverse product requirements.

Building requirements are minimal—standard ceiling heights (12-20 feet), normal floor capacity (300-500 PSF), and no special infrastructure. Modular installation allows phased deployment starting with small systems. Capital investment of $500K-5M+ depending on size, with typical payback of 3-5 years.

Bin sizing and slotting determine system efficiency. Standard bins (16x24x12 inches) hold 20-40 pounds of products. Item-to-bin assignment should optimize space utilization while maintaining accessibility. High-velocity items should be stored near the top for faster retrieval.

Throughput planning determines robot and port quantities. Each robot handles 60-100 bin deliveries per hour, while each port supports 100-200 picks per hour depending on order complexity. Simulation modeling validates design before installation.

Inventory slotting places fast-moving items in top layers and near ports to minimize retrieval time. ABC analysis guides placement decisions. Dynamic slotting adjusts locations based on velocity changes.

Preventive maintenance includes daily robot inspections, weekly grid cleaning, and monthly professional service. Spare robot inventory enables rapid replacement during failures. Remote monitoring identifies issues proactively.

Order batching groups picks to minimize bin retrievals. Wave picking processes orders in batches. Zone picking divides work across multiple ports to maximize throughput.

Key metrics include system uptime (target 99%+), picks per hour per port (target 100-200+), robot utilization, and inventory accuracy (target 99.9%+). ROI materializes over 3-5 years through space savings, labor productivity, and operational flexibility. Space efficiency and scalability validate the investment.

By implementing AutoStore with attention to bin sizing, slotting optimization, and throughput planning, facilities achieve ultra-high-density storage with flexible scalability that adapts to changing business needs.