Cloud Inspired. Storage Optimized.

Designed to meet today’s increasingly demanding service levels and support broader cloud workloads, while reducing storage costs.

Built from the success of its cloud-inspired predecessor—the Intel® SSD DC P4600 — and architected with 64-layer TLC Intel® 3D NAND technology, the Intel® SSD DC P4610 and Intel® SSD DC P4618 deliver performance, quality of service (QoS), and capacity improvements to further optimize storage efficiency, enabling data centers to do more per server, minimize service disruptions, and efficiently manage at scale.

An SSD Built for Cloud Storage Architectures
Multi-cloud has become a core element for any enterprise strategy, and top cloud providers have responded by openly embracing PCIe*/NVMe*-based SSDs with scalable performance, low latency, and continued innovation.

As software-defined and converged infrastructures are swiftly adopted, the SSD DC P4610/P4618 meets the need to maximize efficiency, revitalize existing hardware, and accelerate applications across a wide range of cloud workloads, all while reducing operational costs.

Do More Per Server
Intel’s 3D NAND technology enables the SSD DC P4610 to increase available capacity up to 20% more compared to its immediate predecessor, the SSD DC P4600.1 This increased density is the key to supporting broader workloads, allowing cloud and enterprise service providers to increase users, and improve data service levels. Better QoS is ensured with an intelligent firmware algorithm that keeps host and background data reads and writes at an optimum balance.

With the SSD DC P4610, host applications not only have access to higher capacity, but are also serviced at up to 35% faster write rate,2 up to 35% more endurance per drive,3 and up to 4x reduction of service time at a QoS metric of 99.99% availability for random access workload.4

With the SSD DC P4618, write bandwidth is doubled and endurance is increased 50% over Intel® SSD DC P4608.1 2

Minimize Service Disruptions
To ensure telemetry information without disrupting ongoing I/Os, the SSD DC P4610/P4618 includes enhanced SMART monitoring of drive health and status, using an in-band mechanism and out-of-band access. A power loss imminent (PLI) protection scheme—with a built-in self-test—guards against data loss if system power is suddenly cut.

Coupled with our industry-leading end-to-end data path protection scheme, PLI features enable ease of deployment into resilient data centers where data corruption from system-level glitches is not tolerated.5 The SSD DC P4610/P4618 combines firmware enhancements with new 3D NAND features to prioritize host workload and ensure better service levels.

Efficiently Manage at Scale†
To help data centers make the most of increased SSD capacity per server, dynamic namespace management delivers the flexibility to enable more users and scale deployment. The SSD DC P4610 also provides security features like TCG Opal* 2.0 and built-in AES-XTS 256-bit encryption engine, required by some secure platforms.

With the capability to manage multiple firmware versions on a drive and to support updates without a reset, the DC P4610 improves integration and increases the ease and efficiency of deploying at scale.

Intel® SSD DC P4610/P4618 Series – Features & Specifications

Features at-a-Glance

SSD DC P4610

SSD DC P4618


Intel® Solid State Drive DC P4610 Series

Intel® Solid State Drive DC P4618 Series


1.6 TB, 3.2 TB, 6.4 TB, and 7.68 TB

6.4 TB

128k Sequential Read/Write – up to 3200/3200 MB/s

128k Sequential Read/Write – up to 6650/5350 MB/s

Random 4KB R/W: Up to 654K/220K IOPs

Random 4KB R/W: Up to 1210K/484.5K IOPs


End-to-end data protection from silent data corruption,

uncorrectable bit error rate < 1 sector per 1017 bits read

End-to-end data protection from silent data corruption,

uncorrectable bit error rate < 1 sector per 1017 bits read


PCIe* 3.1 x4, NVMe* 1.2

PCIe* 3.1 x8, NVMe* 1.2

Form Factor

U.2 2.5in x 15mm (for serviceability, hot-plug, and density)

HHHL Add-in Card


Intel® 3D NAND Technology, 64-layer, TLC

Intel® 3D NAND Technology, 64-layer, TLC


Up to 3 DWPD (JESD219 workload)

Up to 4.56 DWPD (JESD219 workload)


Up to 15 Watt

Up to 29 Watt


5-year limited warranty

5-year limited warranty

Intel® SSD Data Center Family

All manageability features are not available at the time of the product release but will be available in future maintenance release. Please refer to product specification for details about feature description and availability.

Ürün ve Performans Bilgileri


Intel® SSD DC P4610 Serisi 7,68 TB ve Intel® SSD DC P4600 Serisi 6,4 TB ürünlerinin karşılaştırılması.


Intel® SSD DC P4610 Serisi 6,4 TB ve Intel® SSD DC P4600 Serisi 6,4 TB ürünleri arasında sıra derinliği 128 iken 128 KB Ardışık Yazma Bant Genişliği karşılaştırması. Ölçülen bant genişliği, Intel® SSD DC P4610 ve P4600 Serisi için sırasıyla 3,04 GB/sn ve 2,2 GB/sn'dir. Ölçülen bant genişliği, Intel® DC P4618 6,4 TB ve Intel® DC P4608 6,4 TB için 30 W modunda sırasıyla 5,3 GB/sn ve 2,5 GB/sn'dir.


Intel® SSD DC P4610 Serisi 6,4 TB ile Intel® SSD DC P4600 Serisi 6,4 TB arasında ve Intel® SSD DC P4618 Serisi 6,4 TB ile Intel® SSD DC P4608 Serisi 6,4 TB arasında JEDEC kurumsal iş yükü dayanıklılığı karşılaştırması.


Intel test: Comparing 4KB Random Read and 70/30 Random Read/Write queue depth 1 latency at 99.99% percentile, between Intel® SSD DC P4610 Series 6.4TB and Intel® SSD DC P4600 Series 6.4TB. For example, measured latency for 99.99% was 0.72ms and 3.13ms for Intel® SSD DC P4610 and P4600 Series, respectively. Results have been measured for 15min run for all capacities Any differences in your system hardware, software or configuration may affect your actual performance. Intel expects to see certain level of variation in data measurement across multiple drives. FIO* uses the configuration listed on footnote 6.


Kaynak - Intel. Uçtan uca veri koruma, ana bilgisayar ile SSD denetleyici ve medya arasında okunan veya yazılan yolun tamamında verilerin bütünlüğünü tespit etmek ve düzeltmek için kullanılan yöntem kümesi anlamına gelir. İddia, ortalama Intel sürücü hata oranları ile ortalama rakip sürücü hata oranları karşılaştırmasına dayanır. Nötron radyasyonu, sessiz veri bozulma oranlarını belirlemek için ve genel uçtan uca veri koruma etkinliğini ölçmek için kullanılır. Sessiz hatalar, beklenen verilerle sürücü tarafından geri getirilen asıl verilerin karşılaştırılması suretiyle sürücü "asılı" kaldıktan sonra yürütme zamanında ve yeniden yükleme sonrasında ölçülmüştür. Yıllık veri bozulma oranı, ışının hızlandırılmasıyla bölünen hızlandırılmış test sırasında elde edilen oran üzerinden tahmin edilmiştir (bkz. JEDEC standart JESD89A). Performans Mayıs 2019 tarihinden itibaren yapılan testlere dayalıdır ve genel kullanıma açık tüm güvenlik güncellemelerini içermeyebilir. Ayrıntılar için yapılandırma bilgilerine göz atın. Hiçbir ürün veya bileşen mutlak güvenlik sağlayamaz.


Test and System Configuration: Processor: Intel® Xeon® Gold 6140 CPU @ 2.30GHz, DRAM: DDR4 – 32GB, OS: Linux* Centos* 7.3 kernel 4.8.6/4.15.rc1, Intel® SSD DC P4610 Series, firmware version VDV10140. Intel BIOS Patch rev13 was used -


Intel® SSD DC P4618 Serisi VDV10160 sabit yazılımı için ortalama güç, 128 KB aktarma hızı ve 128 kuyruk derinliği ile sıralı yazma iş yükü tarafından ölçülmüştür. FIO*, dipnot 7'de açıklanan yapılandırmayı kullanır.