TOTAL MICRO TECHNOLOGIES delivers a high‑quality 32GB DDR5 memory module designed for professionals who demand reliable, fast system responsiveness. Compatible with HP Elite 600 G9, 800 G9, and Workstation Z2 G9, it’s a valuable upgrade for power users, designers, and multitaskers.
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Capacity: 32GB single DIMM to boost multitasking, large-file handling, and memory-intensive workloads.
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Speed: 4800MHz data rate (PC5-38400) for rapid data transfer and snappy application loading.
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Latency: CL40 timing provides balanced performance and stability under load.
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Form Factor: 288‑Pin DIMM, unbuffered for standard desktop systems.
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Voltage: 1.1V operating voltage for improved energy efficiency and cooler operation.
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Compatibility: Verified compatibility with HP Elite 600 G9, HP Elite 800 G9, and Workstation Z2 G9 models.
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Warranty: Lifetime limited warranty for long‑term reliability and peace of mind.
This memory module is ideal for professionals who run resource‑hungry applications, virtualization, large spreadsheets, CAD software, or design suites. With 32GB of fast DDR5 memory, you’ll experience smoother multitasking, faster data access, and more consistent performance during peak workloads—without sacrificing stability or compatibility with OEM specifications.
Specs
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Brand: TOTAL MICRO TECHNOLOGIES
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Model/Part: 4M9Y2AA-TM
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Type: DDR5 PC5-38400
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Capacity: 32GB
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Speed: 4800MHz
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Latency: CL40
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Form Factor: 288‑Pin DIMM
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Buffer: Unbuffered
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Voltage: 1.1V
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Warranty: Lifetime limited
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Compatibility: HP Elite 600 G9, 800 G9, Workstation Z2 G9
FAQ
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Q: What systems is this memory compatible with?
A: HP Elite 600 G9, HP Elite 800 G9, and Workstation Z2 G9 models.
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Q: Is the memory module buffered or unbuffered?
A: It is unbuffered, suitable for standard desktop systems.
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Q: What is the voltage requirement?
A: 1.1V for energy efficiency.
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Q: What warranty does it include?
A: A lifetime limited warranty.
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Q: What performance benefits does 32GB of DDR5 at 4800MHz offer?
A: It enables stronger multitasking, faster data access, and smoother handling of memory‑intensive applications, with stable operation under demanding workloads.