Allen & Heath AHM-32 Audio Matrix Processor: The Mid-Scale Installation Workhorse

Stepping Up to 32×32: Where the Allen & Heath AHM-32 Fits in Serious AV Installations

When a project outgrows the capabilities of a 16-channel matrix processor, integrators face a decision that can shape the entire trajectory of a system design. Do you add I/O expanders and stretch a smaller unit beyond its comfortable operating envelope, or do you step up to a platform that was designed from the ground up to handle the higher channel counts and more complex routing requirements of larger installations? The Allen & Heath AHM-32 answers that question decisively, delivering 32×32 analog I/O on the same FPGA-powered, Dante-networked architecture that has made the AHM series a standout performer in the installed sound market.

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Having worked extensively with both the AHM-16 and the AHM-32, I can tell you that the step up to the 32-channel unit is not just about having more connectors on the back panel. The additional I/O opens up system design possibilities that fundamentally change how you approach mid-scale installations. Multi-building campuses, large worship complexes, convention centers, and corporate headquarters with dozens of conference rooms all become manageable from a single processing unit, which has significant implications for system reliability, maintenance, and total cost of ownership.

Hardware and Physical Design

The AHM-32 occupies a 2U rack space, which is the expected tradeoff for doubling the analog I/O count from the 1U AHM-16. The chassis maintains Allen & Heath’s characteristically solid build quality with a sturdy steel enclosure and clearly labeled rear panel connections. Despite the larger physical footprint, the unit remains manageable for a single technician to rack-mount, though having a second pair of hands makes the job easier.

The rear panel is organized with 32 analog inputs and 32 analog outputs on Euroblock connectors. These are arranged in logical groups of eight, making cable management and labeling straightforward during installation. The connector spacing is adequate for comfortable termination, which becomes increasingly important as you scale up the analog wiring. Terminating 64 Euroblock connections on a single device is a meaningful amount of work, and having enough physical space to work without accidentally dislodging adjacent wires is a genuine quality-of-life improvement.

Like the AHM-16, the AHM-32 features dual Dante ports for redundant networked audio, a DX port for Allen & Heath’s digital snake expanders, GPIO for third-party control integration, and USB for firmware updates. The Dante interface provides 64×64 channels, identical to the AHM-16, which means your total available audio channel count when combining analog and Dante I/O is substantial.

The unit runs fanless in most operating conditions, which is critical for installations in noise-sensitive spaces. I have deployed AHM-32 units in equipment closets adjacent to executive offices and recording studios where fan noise would be a non-starter. Thermal management is passive, using the chassis itself as a heat sink, and I have not encountered thermal throttling or heat-related issues even in enclosed racks with limited airflow.

Power and Reliability

Power consumption on the AHM-32 is higher than the AHM-16, which is expected given the additional I/O and processing. The unit uses a standard IEC power connector and operates on universal mains voltage. For mission-critical installations, I strongly recommend running the AHM-32 on a UPS to protect against power interruptions. The boot-up time from a cold start is reasonable but not instantaneous, so a momentary power dip without UPS protection can result in several seconds of audio silence while the unit reinitializes.

Reliability has been excellent in my experience. I have AHM-32 units that have been running continuously for well over a year without any hardware failures or software crashes. The fanless design eliminates the most common point of mechanical failure in rack-mounted equipment, and the solid-state FPGA processing architecture has proven to be extremely stable in 24/7 operation.

Processing Architecture and Capabilities

The AHM-32 runs on the same FPGA processing engine as the rest of the AHM series. The deterministic latency and consistent processing performance that define the platform are fully present in the 32-channel model. What changes with the larger I/O count is the scale of matrix routing and the number of processing instances you can deploy simultaneously.

With 32 inputs and 32 outputs in the analog domain alone, plus 64×64 Dante channels, you have a routing matrix that can handle extremely complex multi-zone audio systems. The crosspoint matrix allows any input to be routed to any output at adjustable levels, and the total number of active routing paths far exceeds what most installations require. This headroom in routing capacity means you can design systems that accommodate future expansion without hitting processing limits.

DSP Processing Blocks

The AHM-32 provides the same comprehensive set of processing blocks available on the AHM-16, but with more instances available to cover the larger channel count:

• Parametric EQ on every input and output channel, with sufficient bands for detailed room correction and speaker tuning across all 32 output zones
• Graphic EQ options on outputs for quick tuning adjustments, particularly useful in spaces where you need to hand limited EQ control to facility staff
• Automatic Microphone Mixing (AMM) with support for large microphone arrays, capable of managing gain sharing across conference rooms, council chambers, and lecture halls with many simultaneous microphone inputs
• Acoustic Echo Cancellation (AEC) on multiple channels simultaneously, supporting several conferencing rooms from a single AHM-32 unit
• Dynamics processing including compressors, gates, and limiters on inputs and outputs
• Priority ducking for paging and emergency announcement systems with configurable priority levels
• Signal delays on outputs for speaker time alignment in distributed systems

The ability to run AEC on multiple conference rooms simultaneously from a single AHM-32 is a significant advantage for corporate headquarters projects. Instead of deploying a separate DSP unit for each conference room, you can centralize the processing in one AHM-32 located in the main equipment room. This reduces hardware costs, simplifies system maintenance, and provides a single point of management for all conference room audio processing across the floor or building.

Matrix Routing Flexibility

The 32×32 matrix provides 1,024 crosspoints, each with independent level control. In practical terms, this means you can create extremely sophisticated routing schemes that would be impossible or cumbersome on smaller matrix processors. Consider a corporate floor plate with 12 conference rooms, 4 open collaboration areas, a reception lobby, an executive dining room, and a fitness center. Each space needs independent source selection and volume control, with the ability to combine adjacent conference rooms for larger meetings. The AHM-32 handles all of this from a single unit.

The room combining functionality is worth highlighting because it is a common requirement in corporate and convention center installations. By creating presets that reconfigure the matrix routing, you can combine two or more adjacent spaces into a single audio zone at the press of a button. When the dividing partition goes up, one preset splits the rooms back into independent zones. When the partition comes down, another preset combines them so that audio from any microphone in either room is reinforced through speakers in both rooms. The AHM-32’s preset system handles these transitions smoothly, and the FPGA processing ensures that the switch happens without audible glitches or audio dropouts.

Software Configuration and System Design

The AHM-32 uses the same browser-based AHM System Manager software as the rest of the AHM series. If you have configured an AHM-16, you already know how to configure an AHM-32. The interface scales smoothly to accommodate the larger channel count, with the matrix routing view expanding to show the full 32×32 crosspoint grid. Navigating a larger matrix requires some scrolling, but the interface handles it well and maintains responsiveness even with all 32 channels actively processing.

System design for larger AHM-32 installations benefits from careful upfront planning. With 32 analog inputs and outputs available, it is tempting to assign channels on the fly during installation, but this approach leads to disorganized channel assignments that are difficult to troubleshoot and maintain. I recommend creating a detailed channel list during the design phase, grouping inputs and outputs logically by location or function, and documenting the assignments in a format that can be referenced during installation and future service calls.

Multi-Unit Systems

While the AHM-32 has substantial I/O capacity on its own, very large installations may require multiple units. The AHM series supports multi-unit systems linked over Dante, where each unit handles its own zone of the installation while sharing audio with other units across the network. This architecture is highly scalable and allows you to design systems that can grow with the facility’s needs.

In a multi-building campus deployment, you might place an AHM-32 in each building to handle local audio processing and zone management, with Dante networking providing audio connectivity between buildings for campus-wide paging, emergency announcements, and shared program sources. Each building’s AHM-32 operates independently for local audio, ensuring that audio continues to function in each building even if the network link between buildings goes down. This distributed architecture provides both scalability and resilience.

Managing a multi-unit AHM system is straightforward through the browser-based System Manager. You can access any AHM unit on the network from a single workstation, switch between units to make configuration changes, and monitor system status across the entire installation. This centralized management capability is a significant operational advantage for facility managers who are responsible for audio systems across multiple buildings or campus locations.

Custom Control and User Interfaces

The Custom Control system available on the AHM-32 is identical to what is available on the AHM-16, but the larger system scale means that Custom Control interfaces tend to be more extensive and may include more pages, more zones, and more complex navigation. The Custom Control editor handles this scale well, allowing you to create multi-page interfaces with tab navigation between different zones or functional areas of the building.

For large installations, I typically create multiple Custom Control layouts targeting different user groups. A reception desk operator might have a simple single-page interface with lobby volume and source selection. A facilities manager might have a more comprehensive interface with access to all zones, preset recall, and scheduling controls. The AV technician might have an advanced interface with access to input gains, EQ adjustments, and system diagnostics. Each of these interfaces runs on a different tablet or computer, all connecting to the same AHM-32 over the network.

The IP controller surfaces (IP6, IP8, IP12) are equally relevant for AHM-32 installations. In a large corporate deployment, you might install IP8 controllers in every conference room for local volume and source control, with the physical knobs providing a tactile, intuitive user experience that does not require picking up a tablet or touching a screen. The ability to power these controllers over PoE means that each installation requires only a single network cable run, simplifying the electrical and data infrastructure requirements.

Integration with Third-Party Control Systems

In larger installations, the AHM-32 often needs to integrate with a building-wide control system such as Crestron, Extron, or AMX. The GPIO connections on the AHM-32 provide a simple interface for basic control functions like preset recall and mute toggling. For more sophisticated integration, TCP/IP control allows the control system to send commands to the AHM-32 for level adjustments, source selection, routing changes, and status queries.

Allen & Heath provides a TCP/IP protocol document that details the command structure for controlling the AHM-32 from external systems. The protocol is straightforward and well-documented, though it does require programming on the control system side. For Crestron systems, I have developed reusable modules that handle the communication with AHM units, which significantly reduces the programming time for each new project. If your integration team is not familiar with the AHM control protocol, expect to spend some time during the first project building and testing the control interface, but subsequent projects will benefit from the reusable code you develop.

For systems that use Extron control processors, the AHM-32’s TCP/IP interface integrates smoothly with Extron’s Global Configurator Plus software. The command structure maps well to Extron’s event-driven programming model, and the bidirectional communication allows the Extron system to receive feedback from the AHM-32 for status indicators on touch panels.

Real-World Application: Large Corporate Headquarters

The AHM-32’s sweet spot is corporate headquarters installations where a single floor or building has numerous conference rooms, collaboration spaces, and common areas that all need audio processing. I have deployed the AHM-32 in several corporate projects of this type, and the results have been consistently excellent.

In a typical deployment, a single AHM-32 handles audio for 10 to 15 conference rooms on a corporate floor. Each room has ceiling microphones feeding analog inputs, ceiling speakers connected to analog outputs, and a connection to the room’s video conferencing codec. The AHM-32 provides AMM and AEC processing for each room, routes audio between rooms for combined meeting configurations, and distributes background music from a centralized source to all common areas.

The Dante interface allows the AHM-32 to integrate with Dante-enabled DSP devices in larger conference rooms that require additional processing power or dedicated amplification. Dante also provides the pathway for routing audio between multiple AHM-32 units on different floors of the building, enabling inter-floor paging, executive communications, and all-hands announcements that reach every audio zone in the facility.

One of the most effective corporate deployments I have completed involved a financial services firm’s trading floor. The open floor plan had 20 zones of distributed ceiling speakers for background masking sound, 8 conference rooms along the perimeter, a reception area, a pantry, and a large town hall space. The AHM-32 handled all of these zones, with Custom Control interfaces on tablets at the reception desk and in the facility manager’s office, IP8 controllers in each conference room, and automated scheduling for the background masking levels throughout the trading day.

Conference Room Combining

Room combining is a particularly strong use case for the AHM-32. Many corporate facilities have conference rooms separated by movable partitions that can be opened to create larger meeting spaces. The AHM-32’s preset system makes room combining seamless. When the partition is open, a preset routes all microphones and speakers in both rooms as a single zone, with the AMM managing gain sharing across the combined space. When the partition closes, a different preset splits the rooms into independent zones with separate AMM instances, separate AEC references, and independent volume controls.

The transition between combined and separated configurations can be triggered by a button press on a wall-mounted IP controller, a Custom Control interface, or automatically via a contact closure from a partition sensor connected to the GPIO inputs. The latter approach is the most user-friendly because it requires no action from the meeting participants. The audio system automatically detects when the partition opens or closes and reconfigures itself accordingly.

Real-World Application: Large Houses of Worship

Large worship facilities with multiple venues, overflow rooms, and distributed audio requirements are an ideal application for the AHM-32. A campus-style church might have a main sanctuary, a fellowship hall, a chapel, multiple classroom wings, a nursery, outdoor gathering areas, and administrative offices. Managing audio across all of these spaces from a single processing platform provides consistency, simplifies system maintenance, and reduces the total equipment count compared to deploying separate processors in each area.

In a large worship installation, the AHM-32 typically receives a stereo mix from the main sanctuary’s front-of-house mixing console, wireless microphone receivers for pastoral staff, podium microphones, and various media playback sources. These inputs are processed with EQ, dynamics, and routing to all of the facility’s output zones. The main sanctuary speakers might be driven directly from a dedicated mixing console, but the overflow rooms, lobby, nursery, and outdoor areas all receive their audio feeds from the AHM-32, with independent volume control and EQ for each zone.

The preset system is heavily utilized in worship installations. A Sunday morning service might require a different routing configuration than a Wednesday night youth event, a Saturday evening contemporary service, or a special event like a concert or conference. Each of these scenarios can be stored as a preset and recalled with a single button press, ensuring that the audio system is correctly configured for every event without relying on volunteer operators to make complex routing changes manually.

Priority paging is another important function in large worship facilities. Emergency announcements need to reach every zone in the building regardless of what audio is currently playing. The AHM-32’s ducking system handles this cleanly, automatically reducing all other audio sources when an emergency page is triggered. The priority levels can be configured so that a routine informational page ducks the audio partially while an emergency announcement overrides everything at full level.

Real-World Application: Convention and Event Centers

Convention centers and multi-purpose event venues present some of the most complex audio routing challenges in the installed sound world. These facilities typically have multiple ballrooms and meeting rooms that can be combined in various configurations, pre-function spaces with background music, common areas with paging requirements, and connections to external production systems for live events. The AHM-32’s combination of high channel count, flexible routing, preset-based reconfiguration, and Dante networking makes it well-suited for these demanding applications.

In a convention center deployment, the AHM-32 serves as the central audio routing and processing hub for the facility’s fixed audio infrastructure. It manages background music distribution across all public areas, provides paging connectivity to the house paging system, and handles room combining for the breakout meeting rooms. When an event production company brings in their own audio equipment, the Dante interface allows the production system to integrate seamlessly with the venue’s installed audio infrastructure. The production company’s console can send and receive audio over Dante to and from the AHM-32, enabling scenarios like routing the main stage audio to overflow rooms or distributing a keynote presentation to every meeting room in the facility.

The scheduling capability is valuable in convention center applications where the audio configuration needs to change frequently throughout the day. A morning general session might use the grand ballroom with all partitions open, while the afternoon has the ballroom divided into six breakout rooms for concurrent sessions. The evening might reconfigure the space for a reception with background music and a DJ setup. Each of these configurations can be scheduled in the AHM-32, with automatic transitions at specified times and manual override capability for the venue’s technical staff.

Real-World Application: Higher Education Campuses

Universities and colleges have campus-wide audio requirements that the AHM-32 handles exceptionally well. A typical campus deployment might involve one or more AHM-32 units connected over Dante to cover lecture halls, seminar rooms, student centers, athletic facilities, and administrative buildings. The distributed architecture allows each building to have independent audio operation while sharing paging, emergency notifications, and program audio across the entire campus network.

Lecture halls are a strong use case for the AHM-32’s AMM and AEC capabilities. A 200-seat lecture hall with ceiling microphones for student questions, a wireless lapel mic for the professor, a podium mic for guest speakers, and a videoconferencing connection for remote participants requires sophisticated audio processing to manage all of these sources cleanly. The AHM-32 handles the automatic mixing, echo cancellation, and routing to both the room’s speaker system and the lecture capture recording system without requiring a dedicated audio operator for every class session.

Student centers and common areas benefit from the multi-zone background music capabilities. Different areas of a student center might have different music sources and volume levels, with paging for announcements and emergency notifications. The scheduling feature adjusts levels and sources throughout the day to match the ebb and flow of student activity, and the Custom Control interface allows student center staff to make manual adjustments without needing any audio engineering knowledge.

Comparison with Competing Platforms at the 32-Channel Level

At the 32×32 I/O level, the competitive landscape shifts somewhat compared to the smaller 16-channel category. The AHM-32 faces competition from larger DSP processors that offer similar or greater I/O counts with varying feature sets and price points.

Biamp TesiraFORTE AVB TI

Biamp’s larger TesiraFORTE models offer comparable I/O counts to the AHM-32. The Tesira platform is mature and well-supported, with a large ecosystem of peripherals and I/O expanders. The Tesira software provides more flexibility in signal flow design compared to the AHM-32’s structured approach, which can be an advantage for complex custom signal processing requirements. However, the Tesira software also has a steeper learning curve, and system configuration takes longer for equivalent functionality. The AHM-32’s Custom Control system remains easier to use for building end-user interfaces, and the integrated 64×64 Dante interface is competitive with Biamp’s networked audio options.

QSC Q-SYS Core 110f

The Q-SYS Core 110f is a formidable competitor that offers not just audio processing but a complete AV control and management platform. Q-SYS provides software-based processing, video switching, camera control, and extensive third-party integration capabilities that go well beyond what the AHM-32 offers. For installations that require a unified AV platform with audio, video, and control in a single ecosystem, Q-SYS is hard to beat. However, Q-SYS also carries a higher price point, a steeper learning curve, and more software complexity. For projects where the primary requirement is audio matrix processing with clean user control interfaces, the AHM-32 often delivers comparable audio results with less design and programming effort.

BSS BLU-806 and BLU-326

BSS’s larger Soundweb London processors compete directly with the AHM-32 in the installed sound market. The BSS platform offers tremendous flexibility with its open-architecture signal processing design, and the HiQnet London Architect software is an industry standard. However, BSS systems are typically more expensive, require more design and programming time, and lack the built-in AEC and Custom Control capabilities that the AHM-32 includes as standard. For projects that require the ultimate in DSP flexibility and have the engineering budget to support extensive custom programming, BSS remains a strong choice. But for projects where time-to-deployment and ease of management are priorities, the AHM-32 has a meaningful advantage.

Symetrix Radius NX 12×8 and Edge

Symetrix processors in the Radius NX and Edge families offer good processing quality and a flexible configuration environment. At the 32-channel level, you might need multiple Symetrix units or larger models with expansion cards to match the AHM-32’s I/O count. The AHM-32’s integrated approach, with all 32×32 analog I/O, 64×64 Dante, and processing in a single chassis, can be simpler and more cost-effective than a multi-box Symetrix solution. Symetrix does offer some advantages in terms of the ARC control panel ecosystem and the maturity of their third-party control system integration, but the AHM-32’s Custom Control and IP controller options provide competitive alternatives.

Installation Best Practices for the AHM-32

The larger I/O count of the AHM-32 introduces some additional considerations for installation that are less critical with the smaller AHM-16:

• Cable management is critical. With 32 analog inputs and 32 analog outputs, you are dealing with a significant amount of wiring behind the rack. Plan your cable routing carefully before you start terminating. Use cable management panels, service loops, and clear labeling on every conductor. A well-organized cable installation will save hours of troubleshooting time over the life of the system.
• Consider rack ventilation carefully. While the AHM-32 runs fanless, the 2U chassis does generate more heat than the 1U AHM-16. In enclosed racks with other heat-producing equipment, ensure adequate airflow around the AHM-32 to prevent thermal issues. Leave at least 1U of ventilated space above and below the unit if possible.
• Use a UPS with sufficient runtime. A larger installation has more impact when it goes silent due to a power interruption. Size your UPS to provide at least 15 to 20 minutes of runtime for the AHM-32 and any critical associated equipment like network switches and Dante-enabled amplifiers.
• Document your system thoroughly. A 32×32 matrix with dozens of processing blocks and complex routing is not something you want to troubleshoot from memory six months after installation. Create a comprehensive system documentation package that includes channel assignments, routing diagrams, processing settings, preset descriptions, network settings, and control system integration details.
• Plan for future expansion. Even with 32 analog I/O channels, large installations sometimes grow beyond their initial scope. Reserve a few channels for future use, and make sure your Dante network infrastructure can accommodate additional devices if the system needs to expand.
• Test room combining scenarios thoroughly. If the installation involves room combining, test every combination of room configurations during commissioning. Verify that the AMM, AEC, and routing work correctly in each configuration, and check for any audible artifacts during preset transitions.

Firmware and Software Updates

Allen & Heath continues to release firmware updates for the AHM-32 that add features, improve performance, and address issues reported by the integrator community. The firmware update process is identical to the AHM-16 and can be performed via USB or over the network. For multi-unit installations, I recommend coordinating firmware updates across all AHM units to ensure consistent behavior and avoid compatibility issues between units running different firmware versions.

Before performing firmware updates on production systems, always read the release notes carefully and test the new firmware on a bench unit if possible. While Allen & Heath’s firmware releases have been generally stable, it is good practice to verify that the new firmware does not introduce any issues that could affect your specific system configuration. Keep a copy of the current firmware and system configuration backed up before updating so you can roll back if necessary.

Long-Term Reliability and Support

The AHM-32’s FPGA-based processing architecture, fanless cooling, and solid-state design contribute to excellent long-term reliability. Without moving parts, the primary failure modes are limited to power supply components and connector wear. In installations where the AHM-32 is properly protected by a UPS and housed in a clean, ventilated rack environment, I expect these units to operate reliably for a decade or more.

Allen & Heath’s support for the AHM platform has been responsive and helpful in my experience. Technical support is available through their distributor network and directly from Allen & Heath’s application engineering team. The online knowledge base includes configuration guides, application notes, and example projects that cover common installation scenarios. For integrators new to the AHM platform, Allen & Heath offers training programs that cover system design, configuration, and commissioning, which can accelerate the learning curve for your technical team.

Pricing and Total Cost of Ownership

The AHM-32 is priced at a premium over the AHM-16, which is expected given the doubled I/O count and larger chassis. When evaluating the cost, consider the total system cost rather than just the processor price. A single AHM-32 replacing two AHM-16 units eliminates a second chassis, reduces rack space requirements, simplifies wiring, and provides a more integrated routing matrix. In many cases, the single AHM-32 approach is more cost-effective than a multi-unit AHM-16 solution when you factor in installation labor, rack space, and ongoing maintenance.

The included Dante interface, AEC, AMM, and Custom Control capabilities continue to provide excellent value at the 32-channel level. Competing platforms that charge separately for AEC licensing, Dante cards, and user interface design tools can have a significantly higher total cost when all of these add-ons are included. The AHM-32’s all-inclusive feature set simplifies budgeting and eliminates the unpleasant surprise of discovering that a quoted DSP price does not include the processing features you actually need for the project.

Who Should Specify the AHM-32

The AHM-32 is the right choice for installations that need more than 16 analog I/O channels but do not require the full 64-channel capacity of the AHM-64. Typical projects that benefit from the AHM-32 include:

• Corporate headquarters with 10 or more conference rooms on a single floor
• Large houses of worship with main sanctuary, overflow, and multiple auxiliary spaces
• Convention centers and event venues with room combining requirements
• University buildings with lecture halls, classrooms, and common areas
• Large hospitality properties with numerous background music zones
• Multi-purpose facilities that need extensive zone management and flexible routing
• Government and municipal buildings with paging, conferencing, and public address requirements

If your project consistently uses more than 24 analog I/O channels, the AHM-32 is a more elegant and reliable solution than stretching an AHM-16 with multiple DX expanders. If your project requires more than 32 analog channels, the AHM-64 provides the next step up in the series.

Final Verdict

The Allen & Heath AHM-32 delivers everything that makes the AHM platform compelling, scaled up to a 32×32 channel count that addresses the needs of mid-scale to large installed audio projects. The FPGA processing architecture provides consistent, deterministic performance regardless of processing load. The 64×64 Dante interface enables sophisticated networked audio designs. The Custom Control system and IP controllers give end users intuitive, purpose-built interfaces. And the all-inclusive feature set, with AEC, AMM, and comprehensive dynamics processing, provides genuine value compared to competing platforms that nickel-and-dime you for essential features.

For integrators who have standardized on the AHM platform for smaller projects and need to step up to a larger format for more demanding installations, the AHM-32 is the natural progression. The configuration tools, workflow, and system architecture are identical, so your team’s existing knowledge transfers directly. For integrators evaluating the AHM platform for the first time, the AHM-32 represents a compelling entry point for larger projects that demonstrates the platform’s capabilities at scale.

In a market filled with capable DSP platforms, the AHM-32 distinguishes itself through the combination of processing power, ease of configuration, included features, and user-friendly control options. It is not the most powerful DSP on the market, nor is it the most flexible in terms of custom signal flow design. But for the vast majority of installed audio projects in the 32-channel range, it delivers professional results with less engineering time, lower total cost, and happier end users than many of its competitors. That is a combination worth taking seriously.

The AHM-32 proves that scaling up in channel count does not have to mean scaling up in complexity. Allen & Heath has maintained the platform’s hallmark ease of use while delivering the I/O density and processing power that larger installations demand.

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