Intel® IXF1104 4-Port Gigabit Ethernet Media Access Controller

9.3.3Top Label Marking Example

Figure 59 shows the IXF1104 MAC non-RoHS-compliant device marking label.

Note: In contrast to the Pb-Free (RoHS-compliant) package, the non-RoHS-compliant package does not have the “e1” symbol.

Figure 59. Package Marking Example

Topside fields not to scale

Pin 1 mark

25.0 mm

Syww9001 Country

Back of the die (Bare Silicon)

7.5 x 7.5 mm

++Substrate PN

AAA000AAA = Intel Product Number

XX= Intel Silicon revision number, A0, A1, B0 …

e1

= Pb-Reduced indicator (Same as Jedec)

Syww9001

= Intel Finished Process Order (FPO) number

Substrate PN

= Substrate material number (barely visible)

JJJJJJJJ= Manufacturing Lot Number

Country

= Assy plant Country of Origin

QQ= Quality Level, P: Proto Type, PQ: Potential Qual’able,

”: Production (no marking)

++= Rework Indicator

25.0 mm

Character Font

Size

0.04 - 0.10”

Diameter of Pin 1 mark is 70 mils, and is located opposite the top-side substrate “Pin 1” identifier.

0.19 - 0.24”

R

0.07 - 0.12”

®

0.06 - 0.10”

Note: Diameter of Trademark Circles are 70 mils. Height of circles surrounding Pb-redced symbol are equal to overall character height

NOTE: * "Pin 1 " does mean a Pin1 indicator, not an actual mark.

B5131-01

NOTE: The actual product name marking is IXF1104CE, not HFIXF1104CE (leaded version) and

WFIXF1104CE (Pb-reduced), due to lidless package space limitation.

229

Datasheet

Document Number: 278757

Revision Number: 009

Revision Date: 27-Oct-2005

Page 229
Image 229
Intel IXF1104 manual Top Label Marking Example, Package Marking Example

IXF1104 specifications

The Intel IXF1104 is a cutting-edge Network Interface Controller (NIC) designed to meet the needs of high-speed communication in modern networking environments. As the demand for bandwidth-intensive applications continues to grow, Intel's IXF1104 is engineered to deliver exceptional performance, reliability, and scalability, making it an ideal choice for data centers and enterprise networks.

One of the main features of the IXF1104 is its support for high-speed Ethernet connectivity, providing up to 100 Gbps throughput. This capability allows organizations to handle large amounts of data traffic efficiently, accommodating everything from cloud computing to big data analytics. The NIC utilizes advanced packet processing technology which ensures minimal latency, enhancing the overall user experience.

The IXF1104 is built on a robust architecture that integrates Intel's latest processing technologies. It incorporates a multi-core processing engine that allows for parallel processing of network packets, improving the handling of simultaneous network requests. This architecture also supports offloading features, freeing up CPU resources for other critical tasks, which optimizes system performance.

In terms of technologies, the IXF1104 supports a variety of standards including Ethernet and Fiber Channel, making it versatile across different networking environments. Its compatibility with industry-standard networking protocols ensures that it can easily integrate into existing frameworks, facilitating seamless upgrades and expansions.

Another significant characteristic of the IXF1104 is its energy efficiency. With Intel’s focus on sustainability, this NIC is designed to consume less power relative to its performance output, thereby reducing overall operational costs for organizations. It employs dynamic power management features that adjust power usage based on demand, which is especially beneficial in large-scale deployments.

Additionally, security features are woven into the IXF1104 design, protecting sensitive data from potential threats. Hardware-based security functions, including encryption capabilities and secure boot processes, ensure that the NIC can safeguard data integrity against unauthorized access.

Overall, the Intel IXF1104 stands out in the crowded NIC market by offering high-performance capabilities, energy efficiency, and robust security features. Its combination of advanced technologies and characteristics positions it as a strategic asset for modern networks, empowering organizations to achieve their connectivity and performance goals in an increasingly data-driven world.