Seagate ZP4000GM3A013 FireCuda 530 4TB NVMe Gen4 SSD — main product image

Seagate ZP4000GM3A013 FireCuda 530 4TB NVMe Gen4 SSD

Seagate

Seagate ZP4000GM3A013 FireCuda 530 4TB NVMe Gen4 SSD

Name: Seagate ZP4000GM3A013 FireCuda 530 4TB NVMe Gen4 SSD
Brand: Seagate
SKU: ZP4000GM3A013

★★★★★4.8 (9945 reviews)

4TB NVMe

7300 MB/s reads and 4TB capacity in a single M.2 slot — the FireCuda 530 eliminates the storage compromise between speed and space.

$359.99*

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*Price sourced from Amazon.com. Last updated:Jun 04, 2026.Price and availability are subject to change.

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Overview

The Seagate FireCuda 530 4TB operates on PCIe Gen4 x4 with NVMe 1.4 protocol in an M.2 2280 form factor, delivering up to 7300 MB/s sequential read and rated write speeds that push the Gen4 envelope. The 4TB model uses 3D TLC NAND to hit its capacity target while maintaining the 1.8M hour MTBF and 1275 TBW endurance figures — metrics that matter when the drive is serving as a primary scratch disk for a content creation workflow. What 7300 MB/s means in practice: a 50 GB 4K project cache folder transfers to another drive in under 7 seconds, and game load times on Gen4 systems drop measurably versus Gen3 alternatives. The NVMe 1.4 specification also brings improved host memory buffer and power management efficiency over the earlier 1.3 standard.

The FireCuda 530 4TB is aimed at two demanding users: the professional content creator who needs a single fast M.2 drive that can hold an entire project library without swapping, and the serious gamer who wants a fully-loaded PS5 or PC storage solution without compromise. The drive's explicit PS5 validation expands its platform range beyond desktop PCs into the console market. Seagate's SeaTools SSD software provides ongoing health and performance diagnostics — a practical tool for users running the drive hard in production environments. The combination of highest available capacity, near-ceiling Gen4 throughput, and broad platform compatibility makes this a consolidation drive: one slot, one drive, no secondary storage required.

Key Features

HIGH CAPACITY Up to 4TB of capacity means accumulating games and content without fear of maxing out space.

MAXIMUM SPEED Get maxed out SATA 6Gb/s speeds of 560/540 MB/s (sequential read/write).

PLUG AND PLAY With a compatible SATA 6Gb/s interface, install or upgrade a SSD in minutes.

LONG-TERM ENDURANCE Game confidently a 5-year limited and the durability 1. 8M hours mean time between failures (MTBF).

PERFORMANCE MONITORING Use SeaTools SSD to test and analyze this fast flash drive.

The available storage capacity may vary.

Specifications

Model

ZP4000GM3A013

Capacity

4TB

Interface

M.2 PCIe Gen4 x4, NVMe 1.4

Form Factor

M.2 2280

NAND Type

3D TLC NAND

Sequential Read

Up to 7300 MB/s

TBW (Endurance)

1275 TBW

MTBF

1.8 million hours

PS5 Compatible

Yes

Backward Compatibility

PCIe Gen3 (speed-limited)

Country of Origin

Not specified

Pros & Cons

👍 Pros

7300 MB/s sequential read speed approaches the PCIe Gen4 x4 theoretical ceiling, delivering best-in-class throughput for large sequential workloads.
4TB capacity in a single M.2 2280 slot is among the highest available in the Gen4 NVMe category, eliminating the need for secondary storage in most workstations.
NVMe 1.4 protocol support includes improvements over 1.3 in areas like multi-namespace management and enhanced power management states.
PS5 compatibility is explicitly validated, making the 4TB model a direct fit for console players wanting maximum expansion storage.
1.8M hour MTBF rating and SeaTools SSD monitoring software provide a measurable reliability floor for production-environment confidence.

👎 Cons

At 4TB, the drive generates meaningful heat under sustained sequential writes — inadequate cooling will trigger thermal throttling and sustained write speed degradation.
1275 TBW endurance on a 4TB drive yields a conservative 0.3 DWPD figure; write-heavy server or NAS use cases would require a higher-endurance enterprise SKU.
The 4TB capacity tier carries a significant price premium per gigabyte compared to 1TB and 2TB models in the same FireCuda 530 lineup.
PCIe Gen4 platform is required to realize the 7300 MB/s specification — older Gen3 systems will cap throughput at roughly half the rated speed.

Frequently Asked Questions

Is the FireCuda 530 4TB compatible with the PlayStation 5's M.2 expansion slot?

Yes. Seagate explicitly lists PS5 compatibility for the FireCuda 530, and Sony's M.2 slot accepts PCIe Gen4 NVMe drives in M.2 2280 format. The 4TB model will function in the PS5 expansion bay, though Sony's firmware caps the usable speed to its internal bandwidth ceiling — the drive will still deliver faster-than-spec-sheet performance relative to slower Gen4 alternatives in that slot.

What bottleneck does 7300 MB/s sequential read actually address?

At 7300 MB/s, the FireCuda 530 operates near the theoretical ceiling of PCIe Gen4 x4 bandwidth (approximately 8000 MB/s). The practical bottleneck it eliminates is large sequential I/O latency — 4K video editing timelines pulling from a project drive, game shader compilation, and OS/application load times all benefit from reduced queue wait times at high data throughput. Random 4K IOPS matters more for OS responsiveness; sequential bandwidth matters for content creation pipelines.

Does the 4TB model require more power or generate more heat than smaller capacities?

The 4TB SKU uses more NAND packages to achieve its capacity, which increases the thermal output under sustained load. The drive will benefit more from active M.2 heatsink cooling than the 1TB/2TB models. Seagate offers an optional heatsink variant; on a desktop system, a motherboard M.2 heatsink is strongly recommended for the 4TB model to maintain peak write speeds during prolonged sessions.

How does 1275 TBW on the 4TB model compare to drive endurance expectations?

1275 TBW for a 4TB NVMe drive equates to roughly 0.3 Drive Writes Per Day (DWPD) over a 5-year period — conservative but appropriate for the consumer/prosumer use case. A video editor writing 100 GB/day would exhaust that endurance in about 35 years. The MTBF of 1.8M hours is the more meaningful reliability number for day-to-day confidence.

Will the FireCuda 530 work in a PCIe Gen3 motherboard?

Yes, with performance scaling down to Gen3 bandwidth limits (~3500 MB/s sequential read). The NVMe 1.4 protocol is backward compatible. You lose roughly half the peak sequential throughput, but the drive functions correctly and remains faster than SATA-based alternatives in a Gen3 system.