Physical Design Engineer: Die-to-Die Interface (RTL to GDSII)

Tenstorrent is seeking  a highly skilled Physical Design Engineer to drive the critical Die-to-Die (D2D) Physical Implementation from RTL to GDSII. This role demands deep expertise in full physical design flow with a specific focus on closing high-speed D2D interfaces for multi-die/chiplet architectures.

This role is remote role open to any location in the U.S.

We welcome candidates at various experience levels for this role. During the interview process, candidates will be assessed for the appropriate level, and offers will align with that level, which may differ from the one in this posting.

Who You Are

• A seasoned ASIC Physical Design Engineer with 5+ years at advanced nodes (7nm or below) and multiple successful tapeouts.
• Strong in full-chip implementation, comfortable owning blocks from RTL to GDSII across synthesis, floorplanning, place-and-route, CTS, and sign-off.
• Deeply familiar with high-speed interfaces (D2D, PCIe, HBM, SerDes) and the physical challenges that come with them (timing, signal integrity, power integrity).
• Detail-oriented and methodical with STA, constraints, and closure for complex, high-speed designs.
• A hands-on problem solver who enjoys collaborating across analog, digital, and full-chip teams to debug tough issues.

What We Need

• Lead Die-to-Die (D2D) physical implementation and closure, taking high-speed D2D PHYs/controllers from netlist to tapeout.
• Own the full PD flow (RTL-to-GDSII): synthesis, floorplanning, P&R, CTS, optimization, and sign-off.
• Drive timing and verification, including full STA (setup/hold), SI analysis (crosstalk, IR drop), and achieving sign-off quality DRC/LVS.
• Improve and maintain physical design methodologies, flows, and automation scripts (Tcl, Python), with specific focus on D2D routing, power grid design, and timing closure.
• Partner closely with full-chip/chiplet teams to meet all tapeout requirements and with the analog design team to resolve interface issues (LEF/LIB, constraints, integration/debug).
• Apply strong EDA tool expertise across Synopsys/Cadence/Mentor for implementation, analysis, and verification.
• Bring a solid academic foundation: B.S./M.S. in EE/CE or related field.

What You’ll Learn

• How to implement and close cutting-edge D2D interfaces in advanced multi-die/chiplet architectures.
• Advanced strategies for co-optimizing routing, power grid, and timing for high-speed links across dies.
• Deeper integration techniques working with analog PHY teams, including model handoff (LEF/LIB) and constraint-driven interface design.
• How to drive repeatable, scalable PD methodologies for high-speed interfaces that can be leveraged across future chiplets and products.

Compensation for all engineers at Tenstorrent ranges from $100k - $500k including base and variable compensation targets. Experience, skills, education, background and location all impact the actual offer made.

Tenstorrent offers a highly competitive compensation package and benefits, and we are an equal opportunity employer.

This position requires access to technology that requires a U.S. export license for persons whose most recent country of citizenship or permanent residence is a U.S. EAR Country Groups D:1, E1, or E2 country.