Engineering Intelligence for RF Design

to Design Faster Iterate Smarter Build Better

HFSS Copilot is an AI-powered assistant that accelerates HFSS workflows through automation, Python scripting, and real-time optimization — helping RF engineers design faster without losing control.

HFSS Copilot

001.

WORKFLOW AUTOMATION

Automates repetitive HFSS tasks, scripting, and tuning loops.

002.

PYTHON
GENERATION

Generates HFSS-ready Python scripts directly from engineering intent.

003.

RADIO FREQUENCY OPTIMIZATION

Accelerates iterations while keeping full engineering control.

From Engineering Intent to Automated Execution

HFSS Copilot translates engineering intent into automated actions inside HFSS.
Through natural language interaction, it generates Python scripts, manages optimization loops, and provides real-time feedback during simulation workflows — all while keeping engineers in full control.

What HFSS Copilot Can Do

001.

Workflow Automation

Automates repetitive HFSS tasks such as project setup, parameter sweeps, tuning loops, and simulation management -reducing manual effort without hiding critical steps.

ENGINEERING IMPACT

Faster Iterations.
Less Friction.

HFSS Copilot reduces scripting overhead, manual tuning, and repetitive setup — enabling engineers to iterate faster and focus on design decisions that matter.

002.

Custom Python Generation

Generates HFSS-ready Python scripts directly from engineering intent, allowing full review, modification, and integration into existing automation workflows.

003.

Institutional RF Knowledge

Encapsulates RF design best practices, optimization heuristics, and domain knowledge — providing consistent guidance while preserving full engineering control.

004.

Real-Time Optimization Feedback

Analyzes simulation results during active design iterations, providing actionable feedback to refine parameters and geometries in real time.

ENGINEERING IMPACT

Faster Iterations.
Less Friction.

HFSS Copilot reduces scripting overhead, manual tuning, and repetitive setup — enabling engineers to iterate faster and focus on design decisions that matter.

AI-assisted workflows. Engineer-driven decisions.

The Problem — and the Shift

Powerful Tools.
Friction-Filled Workflows.

Manual Automation Everywhere

Advanced HFSS workflows still rely heavily on custom scripts, manual setup, and repetitive tuning tasks that slow down everyday engineering work.

Slow Iteration Cycles

Long simulation runs and manual optimization loops increase iteration time and delay validation, even when the underlying tools are extremely powerful.

Knowledge Locked in Individuals

Critical RF expertise often lives inside personal scripts and senior engineers’ experience, making reuse and knowledge transfer difficult across teams and projects.

AI Assistance, Embedded
Where Work Happens

Automation Without Black Boxes

HFSS Copilot automates setup, tuning, and scripting tasks directly inside HFSS — without hiding steps or removing engineering control.

Institutional Knowledge, Preserved

RF best practices, optimization heuristics, and workflow experience are captured inside the tool, making expertise reusable across projects and teams.

Faster, More Informed Iterations

By providing real-time feedback during active simulations, HFSS Copilot helps engineers converge faster while maintaining full visibility into every decision.

Built for RF Engineers and Teams

HFSS Copilot is used by engineers and teams working on complex RF and electromagnetic design challenges across multiple industries and research environments.

001.

RF / Microwave Engineers

Design and optimize RF components, filters, and systems using HFSS on a daily basis.

002.

Antenna Designers

Optimize antennas, arrays, and radiation patterns with iterative simulation workflows.

003.

Filter Designers

Accelerate tuning and optimization of complex filter structures and S-parameters.

004.

Telecommunications · 5G & 6G R&D Teams

Develop and validate high-frequency systems for next-generation communication technologies.

005.

Defense & Aerospace Engineering Teams

Work on mission-critical RF systems where precision, traceability, and control are essential.

006.

EM Simulation Specialists & Consultants

Manage multiple simulation projects simultaneously while maintaining efficiency and consistency.

007.

Hardware Startups & Deep-Tech Teams

Reduce iteration cycles and time-to-market in early-stage hardware development.

008.

Academic Researchers in Electromagnetics

Explore advanced RF concepts, validate models, and accelerate research workflows.

What Engineers Are Saying

Feedback from engineers exploring HFSS Copilot in early access environments.

HFSS Copilot helps us iterate faster without hiding what’s happening under the hood.
Automation without losing control is exactly what we were looking for.

Laura Bennett

EM Simulation Specialist

The ability to generate HFSS-ready Python scripts on demand removes a major bottleneck in our workflow.
It feels like the tool understands how we actually work in HFSS.

Daniel Parker

RF / Microwave Engineer

Reducing repetitive setup and tuning tasks has a clear impact on day-to-day productivity.
The focus stays on engineering decisions, not on tooling overhead.

Michael Anderson

Engineering Manager · RF Systems

Having real-time feedback during antenna optimization cycles changes how quickly we can validate design decisions.
The interaction feels natural for engineering work

Sarah Collins

Antenna Designer

HFSS Copilot fits naturally into our simulation workflows.
The combination of automation and transparency makes it practical for real R&D environments.

Jason Miller

Telecommunications R&D Engineer (5G / 6G)

Maintaining control and traceability is critical in our work.
HFSS Copilot adds automation without compromising visibility or engineering judgment.

Robert Hughes

RF Engineer · Defense & Aerospace

Bring AI Assistance
Into Your HFSS Workflow

HFSS Copilot integrates directly into HFSS to automate repetitive tasks, generate Python scripts, and accelerate RF optimization — all while keeping engineers fully in control of every decision.

Access is provided through a controlled early access program.

Engineering Intelligence for RF Design

to Design Faster Iterate Smarter Build Better

WORKFLOW AUTOMATION

PYTHONGENERATION

RADIO FREQUENCY OPTIMIZATION

From Engineering Intent to Automated Execution

What HFSS Copilot Can Do

Workflow Automation

Faster Iterations. Less Friction.

Custom Python Generation

Institutional RF Knowledge

Real-Time Optimization Feedback

Faster Iterations. Less Friction.

The Problem — and the Shift

Powerful Tools. Friction-Filled Workflows.

Manual Automation Everywhere

Slow Iteration Cycles

Knowledge Locked in Individuals

AI Assistance, Embedded Where Work Happens

Automation Without Black Boxes

Institutional Knowledge, Preserved

Faster, More Informed Iterations

Built for RF Engineers and Teams

RF / Microwave Engineers

Antenna Designers

Filter Designers

Telecommunications · 5G & 6G R&D Teams

Defense & Aerospace Engineering Teams

EM Simulation Specialists & Consultants

Hardware Startups & Deep-Tech Teams

Academic Researchers in Electromagnetics

What Engineers Are Saying

Laura Bennett

EM Simulation Specialist

Daniel Parker

RF / Microwave Engineer

Michael Anderson

Engineering Manager · RF Systems

Sarah Collins

Antenna Designer

Jason Miller

Telecommunications R&D Engineer (5G / 6G)

Robert Hughes

RF Engineer · Defense & Aerospace

Bring AI Assistance Into Your HFSS Workflow

PYTHON
GENERATION

Faster Iterations.
Less Friction.

Faster Iterations.
Less Friction.

Powerful Tools.
Friction-Filled Workflows.

AI Assistance, Embedded
Where Work Happens

Bring AI Assistance
Into Your HFSS Workflow