Introduction
Array System
Array is a factory-connected and automated additive manufacturing platform that enables polymer part production at scale. Powered by integrated robotics, intuitive software, and a high-performance FFF 3D printing engine, Array unlocks end-part production at a competitive cost-per-part with minimum labor intervention. With its open-material architecture, advanced material management system, and wide compatibility of production-grade materials, Array brings flexible manufacturing capabilities to the factory floor.
Stratasys F370
The F370, part of the F123 Series, is aimed at prototyping and light production. It offers plug-and-play reliability, simplified software, and a curated material selection. Designed more for controlled office/lab environments than high-volume production, it’s favored for ease of use and GrabCAD Print integration.
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Comparing Additive Technologies
Fused Filament Fabrication (FFF)
Fused Deposition Modelling (FDM)*
*FFF (Fused Filament Fabrication) and FDM (Fused Deposition Modeling) refer to the same 3D printing technology. The only distinction is that ‘FDM’ is a trademarked term owned by Stratasys, while ‘FFF’ is the generic name used by the broader industry.
Modular: includes four Element printers, a storage cart, and an automated gantry system
Single enclosed system
Default 0.4mm Low-Temp, 0.4mm High-Temp, and several optional add-ons
Default 0.4mm, several add-ons
Comparing Software
Canvas Cloud and Canvas Desktop
Add-ons: Canvas Edu, Canvas Array, Canvas Teams
GrabCAD Print desktop and cloud versions
Comprehensive monitoring solutions including:
- Live process monitoring and camera feed
- Dashboard metrics
- Automated job routing
- Smart failure handling
- Multi-user access
- Real-time print queue management and routing
Automated actions & alerts:
- Print analytics
- Job notifications
- Automated bed swapping
- Automated material handling
Basic remote monitoring including:
- Built-in camera
- Managing print status
- Remote job submission
- Remote start
- Job tracking and status updates
- Multi-user access
Intelligent queue & submission system:
- Centralizes job submission
- Queues tasks to the Array
- Allows users to track, comment on, and approve jobs remotely
Automated orchestration:
Once jobs are approved, the Array system with integrated Palette X manages material swaps, bed swapping, and schedules prints across modules with minimal user intervention and feeds status updates back to Canvas dashboards.
Dynamic job assignment & tracking:
- Admins can allocate jobs to specific users or devices,
- Monitor job history, and oversee the entire job pipeline from a centralized dashboard
Flexible user controls:
Users can start, pause, cancel, or resume jobs on demand, making it easy to manage printing activity in real time across multiple devices.
Integrated queue management:
GrabCAD Print’s built-in queue system, available via desktop and web, lets teams: reorder, delay, prioritize, or cancel jobs, enabling smarter scheduling and streamlined production across all connected printers.
Automated system alerts:
Integrated robotics and bed-changing automation handle common errors
Remote visibility & logs: Errors are logged and surfaced via Canvas dashboards and performance log
Local error alerts & pauses:
GrabCAD Print reports build‑abort errors, requiring operator acknowledgment directly at the printer
Remote notifications: GrabCAD Print Server sends email alerts for errors or job statuses
Comparing Throughput and Production Readiness
Array System
Designed for high-volume production environments, Array excels at producing end-use parts in series production and is suitable for production in industrial environments.
Stratasys F370
While very reliable and industrial-grade, F370 lacks the robotics and automation needed for high throughput series production. It’s better suited for supervised daytime runs or limited overnight prints where manual intervention is acceptable.
Comparing Labor Requirements
Auto: Material pods enabling automated spool switching; up to 8 spools per printer (32 spools total)
Semi-auto: 2-spool auto-switch, manual changeover
Low-to-moderate; intuitive UI & automation
Moderate-to-high; industrial workflow, tech setup
Comparing Space & Power Requirements
Minimum Operational Space Requirements: 3.8m x 2m x 2.15m
Minimum Operational Space Requirements: 1.75 m × 0.90 m × 0.90 m
220–240V, 30A power supply with a NEMA L6-30P connector, single-phase.
100–132V/15A or 200 – 240V/7A. 50/60 Hz
No special ventilation required.*
*Array includes a 3-inch outlet on the top of the unit, designed for optional external fume extraction or connection to a dedicated filtration system, depending on your facility’s requirements.
Does not require external ventilation for normal use.
Comparing Single Extrusion Print Build Volume
Array System
Up to 355 x 355 x 330 mm per unit; scalable across chambers.
Approximately 2543.5 cubic inches of capacity per printer at a total of 10,174 cubic inches of capacity across all four Elements printers.
Stratasys F370
355 x 254 x 355 mm (single build chamber, fixed size).
Approximately 1953.9 cubic inches of capacity total.
Comparing Material Ecosystem
HT option:
All listed Mosaic Materials as well as open material architecture support
Professional: ASA, ABS, PLA
Flexible: Mosaic Flex, Mosaic Aero
Light Industrial: Mosaic Matrix, Mosaic Form, Nylon, FR-PC, ESD-PETG, HIPS
Industrial: PEEK, PEKK
LT option:
All listed Mosaic Materials as well as an open material architecture support.
Professional: ASA, ABS, PLA
Flexible: Mosaic Flex, Mosaic Aero
Light Industrial: Mosaic Matrix, Mosaic Form, Nylon, FR-PC, ESD-PETG, HIPS
SYSS Materials such as: PLA2, ABS-ESD7, ABS-M30, ABS-CF10, ASA, Diran 410MF072, FDM TPU 92A, PC-ABS, and QSR Support material
Yes
No. Proprietary only.
32 total with each Element printer containing 8 automated Material Pods.
4 Material bays, manual swaps required.
Comparing Material Automation
Array System
- RFID-enabled spools
- Automated material swapping upon run-out
- Humidity-controlled chamber
- Palette X material management system integrated within all included Element printers for an automated workflow
Stratasys F370
- Manual spool swaps required after 2 spool runout
- Enclosed filament bays
- Material bay is designed to protect spools from dust and debris, and it’s recommended to store unused spools in sealed bags to prevent moisture absorption.
Comparing High-Temperature Materials Support
Array System
- Max nozzle temp: ~450°C
- Supports materials such as PEKK, CF-Nylon, and PEEK (dependent on configuration)
- High-temp chamber and nozzle for demanding applications
- Ideal for aerospace and high-heat industrial parts
Stratasys F370
- Max nozzle temp: ~300°C
- Limited to engineering-grade polymers, not high-performance thermoplastics
- Not suitable for aerospace-critical high-temp applications
Comparing Country of Origin
Array System
- Designed and assembled in Canada
- Transparent supply chain and support network
- Faster lead times and direct technical support
Stratasys F370
- Designed in the USA, manufactured globally
- Lead times and service may vary based on region
Comparing Starting MSRP (USD)
Array System
- Lower total cost of ownership due to automated features and lower labour requirements
- Contact sales@mosaicmanufacturing.com for a quote
Stratasys F370
- Higher cost per part when factoring in labor and material restrictions
- Starting from approximately $70,000 USD depending on configuration
Common Questions about Array
Yes, Mosaic’s solutions are designed to meet the needs of both enterprise and research environments. Whether you’re scaling production, streamlining prototyping workflows, or conducting advanced research, our products offer the flexibility, reliability, and performance needed for complex applications.
We provide comprehensive support to ensure the smooth integration of Mosaic systems into your workflow. Our Customer Success Team guides you through onboarding and initial setup, offering training and best practices tailored to your operation. For organizations with more complex or custom needs, our Mosaic Solutions team works closely with your business to deliver hands-on support and technical expertise throughout deployment and beyond.
Array automates the entire 3D printing workflow to maximize efficiency and minimize manual labor. It features a robotic system that handles automated part removal through bed swapping, allowing printers to start the next job without human intervention. Its integrated material management system, powered by Palette X, enables seamless high throughput printing and automatic filament routing. Combined with smart storage and queuing systems, Array significantly increases throughput and allows for continuous, unattended production.
Final Comparison Table
FFF (Fused Filament Fabrication);
high-temp capable
FDM (Fused Deposition Modeling);
standard engineering-grade
Canvas (Cloud + Desktop)
with automated queue management, job routing, and fleet analytics
GrabCAD Print (Desktop + Cloud);
reliable but less automation
Full automation
robotic bed swapping, material routing (Palette X), remote monitoring & orchestration
Partial automation
queue management, auto-spool switching (2 only); no robotic handling
High
4 print units per Array with simultaneous jobs and automated scheduling
Moderate
single printer; sequential jobs only; manual changeover
Yes
designed for unattended production with autonomous failover & job cycling
No
suited for daytime or supervised overnight runs; manual part removal required
355 x 355 x 330 mm (per Element printer)
scalable across modules
355 x 254 x 355 mm
fixed size
Low to Moderate
intuitive software, smart alerts, minimal labor
Moderate to High
requires manual changes, more technical setup
Yes
supports 32 spools across 4 printers
Proprietary materials only
(Stratasys cartridges); max 4 spools
Yes
PEEK, PEKK, and open material architecture
No
capped at ~300°C; not suitable for aerospace/high-temp parts
Minimal
support material removal
Minimal
support material removal
Designed and assembled in Canada
Designed in USA, manufactured globally
Factory floors, service bureaus, aerospace and defense, R&D, high volume, low-labor prototyping — scalable and automation-first
Prototyping labs, technical education, engineering offices and optimized for reliability in prototyping and low-volume runs rather than scalability
Conclusion
As additive manufacturing continues to evolve into full-scale production, choosing between systems like the Stratasys F370 and Array depends largely on your specific goals and operational priorities—whether that’s part quality, scalability, automation, or cost efficiency.
The F370 provides a reliable platform for prototyping and low-volume production within a streamlined, closed ecosystem. It’s well-suited for teams seeking a dependable, supervised workflow with a focus on ease of use and consistent results.
Array, on the other hand, is designed with high-throughput and industrial series production in mind. Its open material compatibility, automation features, and scalable architecture aim to support more autonomous operations, potentially reducing labor and long-term operating costs.
Ultimately, the right system will depend on what matters most to your application—whether it’s a controlled prototyping environment or a push toward automated, large-scale production.
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