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Portability Guarantees and Cross-Platform Execution

Domain: portability contract Function: normative

Didactic companion: ../learn/mental-model-portability-and-cross-platform.md

1 Scope

This chapter defines the portability contract of the PROMETEU machine across supported hosts.

Portability means:

  • same cartridge;
  • same machine rules;
  • same logical inputs;
  • same logical results.

The contract is about logical behavior, not identical physical latency or throughput.

2 Separation of Responsibilities

+----------------------------+
|        CARTRIDGE           |
|  (bytecode + assets)       |
+-------------+--------------+
              |
+-------------v--------------+
|        PROMETEU VM         |
|  (logic, time, memory)     |
+-------------+--------------+
              |
+-------------v--------------+
|      PLATFORM LAYER        |
|  window, audio, input, FS  |
+----------------------------+

2.1 What the machine controls

  • bytecode execution
  • logical time (frames, cycles)
  • memory (stack, heap)
  • determinism
  • costs and metrics

2.2 What the host provides

  • pixel display
  • audio output
  • physical input collection
  • access to the sandbox file system
  • technical inspection surfaces (Debug Overlay/HUD)

The host provides realization of machine surfaces. It does not redefine cartridge semantics.

3 Determinism as the Basis of Portability

PROMETEU guarantees determinism through:

  • fixed logical clock (60 Hz)
  • abstract cycles, not real time
  • input sampled per frame
  • absence of implicit concurrency
  • absence of system-dependent operations

4 Independence from Real Hardware

PROMETEU does not use:

  • operating system timers
  • high-resolution clocks
  • CPU-specific instructions
  • uncontrolled graphics acceleration

All performance is measured in PROMETEU cycles, not in milliseconds.

5 Floating Point Precision

To guarantee numerical consistency:

  • PROMETEU defines explicit mathematical operations
  • avoids dependence on specific FPUs
  • standardizes number behavior

This avoids:

  • divergences between architectures
  • unpredictable cumulative errors
  • subtle differences between platforms

6 Cross-Platform Input

PROMETEU abstracts physical input into logical state.

  • keyboard, gamepad, and touch are mapped externally
  • the cartridge only sees logical buttons and axes
  • the reading moment is fixed per frame

7 Cross-Platform Audio

The audio system:

  • defines channels and mixing logically
  • uses native APIs only as output
  • maintains per-frame synchronization

Hardware differences:

  • do not change logical timing
  • do not change sound sequence
  • do not affect certification

8 Cross-Platform Graphics

The graphics system:

  • operates on a logical framebuffer
  • uses an indexed palette
  • does not depend on a specific GPU

The platform layer:

  • only displays the framebuffer
  • does not reinterpret graphics commands
  • may overlay technical HUDs without modifying the logical framebuffer
  • may transport the logical framebuffer into a host presentation surface where a host-only overlay layer is composed

9 Debug and Inspection Isolation

To preserve portability and certification purity, technical inspection tools (like the Debug Overlay) are moved to the Host layer.

  • Host-exclusive: These tools are only implemented where they are relevant (e.g., Desktop) and do not exist in the logical machine.
  • Non-intrusive: They must not consume machine cycles or alter memory state.
  • Consistent Results: A cartridge will produce the same logical results and certification metrics regardless of the Host's inspection capabilities.
  • Contract Boundary: Emulated graphics primitives such as fill_rect and draw_text remain part of the machine contract, but Host overlays must not depend on them.

9.1 Atomic Telemetry Interface

Inspection is facilitated by a lockless, push-based atomic interface:

  1. Host-Independent: The VM updates atomic counters in every frame.
  2. Asynchronous Observation: The Host layer reads snapshots of these counters at its own display frequency.
  3. Loop Purity: This ensures that the VM execution loop remains deterministic and free from synchronization overhead (locks) that could vary across host architectures.

10 File System and Persistence

PROMETEU defines a sandbox logical filesystem:

  • virtual paths
  • size limits
  • deterministic behavior

The platform maps this filesystem to:

  • disk
  • mobile storage
  • persistent memory

Without changing semantics.

11 Certification and Portability

The PROMETEU Certification is valid for all platforms.

If a cartridge:

  • passes on one platform
  • with the same inputs

It:

  • will pass on all
  • will produce the same reports

12 What PROMETEU Does Not Guarantee

PROMETEU does not promise:

  • identical absolute performance (real FPS)
  • identical physical latency
  • equivalent energy consumption

PROMETEU promises:

  • identical logical behavior
  • reproducible technical decisions