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 | "Descrizione" by Radar (1854 pt) | 2026-Feb-03 16:03 |
AMD Am386 DX/DXL-25 – 32-bit x86 CPU compatible with the 386 family, with the DXL “true static” variant for embedded and low-power applications
The AMD Am386 DX/DXL-25 is a 32-bit x86 CPU from the Am386 family produced by AMD, offered as a compatible alternative within the 386 ecosystem and available in the 25 MHZ speed grade. The DX label identifies the standard variant, while DXL identifies the low-power version based on a true static implementation.
This CPU is particularly relevant for embedded platforms, where x86 software compatibility can be an advantage and where power-saving features (clock reducible down to near-static conditions) make it possible to modulate performance and consumption effectively.
Architecture and positioning: 32-bit with 386 compatibility
The Am386 DX/DXL retains the key characteristics of the 386 class: a 32-bit core with support for protected mode and paging (virtual memory), making it suitable both for PC-compatible systems and for embedded systems that need a more advanced x86 execution model than 16-bit CPUs.
386 family characteristics (provided data)
16-bit data bus
A 16-bit data bus is specified: in practice this reduces platform complexity (routing and chipset) and can lower cost, but it limits memory bandwidth compared to wider-bus configurations.
24-bit address bus and 16-Mbyte address range
A 24-bit address bus with a 16 MB addressable range is specified. Operationally, this is consistent with variants aimed at more resource-constrained platforms or embedded integration, where reducing overall system complexity can be a priority.
40, 33 and 25 MHZ operating speeds
The family is indicated with speed grades of 40 MHZ, 33 MHZ, and 25 MHZ. In this specific case, the CPU covered is the DX/DXL-25 at 25 MHZ, oriented toward stability, compatibility, and manageable power.
Embedded applications
The family is explicitly associated with embedded applications, where availability, robustness, and the ability to operate in controlled environments with optimized power profiles are important.
True static design for low-power applications
“True static design” indicates that internal logic can retain state even at very low frequencies, enabling power-saving strategies based on lowering the clock without losing context.
3–5 V operation at 25 MHZ
Operation between 3 and 5 V at 25 MHZ is specified, useful in embedded designs because it provides power-supply flexibility and compatibility with different system logic levels.
True DC (0 MHZ) operation
“True DC operation” down to 0 MHZ implies that the clock can be stopped entirely (full clock gating) while retaining state, and execution can resume when the clock returns: useful for standby modes and for reducing average power in duty-cycled systems.
DX vs DXL: operational differences
DX (standard)
The DX variant targets general-purpose systems and 386-compatible platforms, with “classic” behavior tied to clock rate and platform design.
DXL (low power)
The DXL variant emphasizes true static and true DC features, making it better suited to embedded systems and power-constrained designs, where reducing frequency (down to 0 MHZ) while maintaining internal state is valuable.
Frequency: 25 MHZ and real-world behavior
At 25 MHZ, the CPU prioritizes compatibility and a more manageable thermal/power profile. In practice, for embedded platforms with predictable loads, this frequency is often sufficient, while for interactive PC-style workloads, the experience depends heavily on the memory subsystem, any external cache, and the I/O configuration.
Sketch of the most important connections
386 chipset + RAM + I/O (platform) ┌──────────────────────────────────────────────────────────┐ │ memory controller, peripheral bus, BIOS/ROM, I/O │ │ (in embedded: memory map and timing are decisive) │ └───────────────────────────────┬──────────────────────────┘ │ ▼ ┌─────────────────────────────┐ │ AMD Am386 DX/DXL-25 │ │ 32-bit x86 core @ 25 MHZ │ │ DXL: true static / DC │ └─────────────┬───────────────┘ │ ├────────► RAM/ROM (via chipset/decoding) └────────► I/O (peripheral bus)
Table 1 – Identification data and specifications
| Characteristic | Indicative value |
|---|---|
| Device | AMD Am386 DX/DXL-25 |
| Manufacturer | AMD |
| Class | 32-bit x86 CPU (386-compatible) |
| Frequency | 25 MHZ |
| Data bus (provided) | 16-bit |
| Address bus (provided) | 24-bit |
| Addressable range (provided) | 16 MB |
| Low-power modes | True static design; true DC (0 MHZ) operation |
| Supply (provided) | 3–5 V at 25 MHZ |
| Application target | Embedded applications |
Table 2 – Operational and design considerations
| Aspect | Practical meaning |
|---|---|
| 25 MHZ | Stable profile and more manageable power; performance depends on platform |
| DX vs DXL | DX for “classic” compatibility; DXL for clock gating and power savings |
| 16-bit data bus | Simpler, lower-cost platform, but reduced memory bandwidth |
| 24-bit address bus / 16 MB | Lighter integration; suitable for systems with modest memory |
| True static | Lowering the clock without losing state, useful in duty-cycled systems |
| True DC (0 MHZ) | Ability to stop the clock while retaining context, reducing average power |
| 3–5 V @ 25 MHZ | Power-supply flexibility and integration with different system logic |
| Embedded focus | Strong fit for industrial products needing x86 compatibility and reliability |
| Evaluate |
