Galvis Shipyard
General Specifications
Size: Length: 2 km Width: 1.6 km Height: 1.4 km
Primary Purpose: Construction and repair of medium-sized warships and large public transport vessels. Engineered for high durability, efficiency, and long-term project sustainability.
Cost Range: Construction and operational budget: $120,000–$145,000 GSG credits.
Facilities
Main Shipyard Dimensions: 1.4 km (length) × 1.2 km (width) × 900 m (height).
Capabilities: Designed for building and repairing heavy, mid-sized warships. Handles large-scale assembly and fabrication for advanced ship systems.
Repair Shipyard Dimensions: 600 m (length) × 400 m (width) × 400 m (height).
Capabilities: Focused on the repair and maintenance of smaller crafts. Optimized for rapid servicing and overhaul operations.
Key Equipment
RMX-Z1 Superfab Printer A high-grade fabrication system capable of printing parts made of Tier-2 metals. Ensures precision and efficiency in creating advanced components for mid-sized warships and large transport ships. Can fabricate components at high throughput while maintaining exceptional quality standards.
TMX-E1 Power Generator A cutting-edge power generation system capable of supplying the entire shipyard with consistent and high-energy output. Engineered for efficiency and redundancy, ensuring uninterrupted operations even during peak demands. Supports all major equipment, including the RMX-Z1 Superfab Printer and repair facilities.
Automated Repair Bots A fleet of advanced bots designed to assist in repair and maintenance processes. Equipped with multi-tool systems for diagnostics, welding, material replacement, and surface finishing. Can operate autonomously or under direct control from technicians, ensuring flexibility and precision in repair tasks.
The Galvis Shipyard is a versatile hub for medium-tier construction and repair needs, making it an essential asset for regional Tier-2 states. Its integration of the RMX-Z1 Superfab Printer, TMX-E1 Power Generator, and Automated Repair Bots provides a technological edge, enabling it to support advanced designs and materials critical for modern spacecraft.
Nebula Nexus Shipyard
Overview
General Specifications
Size: Length: 1.8 km Width: 1 km Height: 1.2 km
Primary Purpose: Specializes in experimental ship designs and prototype construction. Equipped to test and implement cutting-edge technologies. Cost Range: Construction and operational budget: $110,000–$140,000 GSG credits.
Facilities
Main Shipyard Dimensions: 1.8 km (length) × 1 km (width) × 1.2 km (height). Capabilities: Designed for constructing and testing experimental and prototype vessels. Configurable assembly bays tailored for unique ship architectures and advanced systems.
Key Equipment
Experimental Superfab Printer (Model E3) A next-generation fabrication system for producing experimental components and advanced materials. Capable of working with Tier-2 and prototype-tier metals, composites, and hybrid materials. Provides flexibility for iterative development cycles and rapid prototyping.
Advanced Power Generators Multiple high-capacity power units tailored to support extensive energy demands of experimental projects. Includes a dual-reactor system for redundancy and stability during high-power testing phases. Integrated energy redistribution systems ensure optimal efficiency.
Experimental Nanobot Repair System A cutting-edge nanobot system for precise and adaptive repair tasks. Capabilities include diagnostics, micro-assembly, self-repair of structural damages, and fine-tuning of ship systems. Ideal for maintaining experimental vessels and supporting rapid design adjustments.
Test and Simulation Facilities High-grade simulators for testing vessel systems under extreme environmental and operational conditions. Includes holographic visualization and real-time telemetry analysis.
The Nebula Nexus Shipyard is a beacon of innovation, equipped with tools and systems to push the boundaries of spacecraft technology. Its combination of the E3 Experimental Superfab Printer, advanced power systems, and nanobot repair capabilities ensures it remains at the forefront of the Galactic Domain's experimental shipbuilding efforts.
Void Forge Shipyard
General Specifications
Size: Length: 1.5 km Width: 1 km Height: 1 km
Primary Purpose: Specializes in constructing light warships, support vessels, and logistics ships. Prioritizes speed and efficiency in production to support fleet demands.
Cost Range: Construction and operational budget: $105,000–$130,000 GSG credits.
Facilities
Main Shipyard Dimensions: 1.4 km (length) × 950 meters (width) × 950 meters (height).
Capabilities: Optimized for high-speed construction and efficient resource allocation. Equipped for producing modular designs to enhance adaptability and scalability.
Key Features
Specialized Superfab Printer (Model SDF-ZII) An advanced fabrication system designed specifically for light warship and logistics ship components. Provides high precision and speed, ensuring compatibility with modular designs.
High-Efficiency Assembly Lines Advanced automation systems tailored for rapid construction cycles. Streamlined logistics pipelines ensure minimal downtime during production.
Integrated Power Grid A robust energy distribution network designed to meet the high demands of simultaneous production tasks. Includes a failsafe backup generator for uninterrupted operations.
Rapid Repair Modules Facilities are dedicated to the quick maintenance and repair of support vessels. Includes automated diagnostics and repair bots to minimize turnaround times.
Resource Optimization Systems Smart inventory and material management systems for efficient use of resources. Incorporates advanced recycling capabilities for minimizing waste.
The Void Forge Shipyard combines cutting-edge technology with streamlined processes, ensuring the rapid production of essential fleet vessels. Its emphasis on speed and efficiency makes it integral to any operational fleet strategy.
Here's the polished version of the Black Hole Dockyard entry:
Black Hole Dockyard
General Specifications
Size: Length: 2.2 km Width: 1.3 km Height: 1.2 km Primary Purpose: Specializes in the construction of high-tech warships, including stealth cruisers and missile frigates. Capable of building advanced space mining vessels integrated with cutting-edge mining and weapon technologies. Cost Range: Construction and operational budget: $115,000–$150,000 GSG credits.
Facilities
Main Dockyard
Dimensions: 2 km (length) × 1.2 km (width) × 1 km (height). Capabilities: Tailored for the assembly and outfitting of stealth cruisers and missile frigates. Features specialized bays for integrating advanced cloaking devices and missile systems.
Mining Vessel Assembly Area
Dimensions: 1.5 km (length) × 900 m (width) × 800 m (height). Capabilities: Optimized for constructing space mining vessels with enhanced durability and precision mining systems. Equipped for fitting specialized drills, extractors, and refining modules.
Key Equipment
Stealth-Tech Superfab Printer
A cutting-edge fabrication system designed to create components for stealth ships and high-tech weapons. Works with advanced composite materials and Tier-2 alloys to ensure lightweight, durable designs. Provides exceptional precision for stealth technology integration.
Advanced Power Reactors
High-capacity reactors tailored for energy-intensive ship systems, including cloaking devices and mining modules. Includes energy optimization features to ensure peak performance and minimal wastage.
Mining Tech Integration Suite
Specialized systems for embedding advanced mining tools and resource extraction technologies. Features modular designs to accommodate upgrades and adaptations for various mining environments.
Stealth Simulation and Testing Facility
A state-of-the-art simulator for testing stealth capabilities under different environmental conditions. Includes real-time telemetry analysis for optimizing stealth performance and system calibration.
Overview
The Black Hole Dockyard is a premier facility designed for innovation in high-tech warship construction and space mining vessels. With its advanced stealth fabrication systems, cutting-edge power reactors, and mining tech integration capabilities, it offers unparalleled support for the Galactic Domain's most ambitious shipbuilding projects.
Ethan reviewed each option carefully. He weighed the pros and cons, scrutinizing the features, costs, and purposes of each shipyard.