Home » Uncategorized » AppliedMicro’s PQX debuts high-density framer/PHY SoC for multi-10G/40G/100G Carrier Ethernet and OTN applications/NeoPhotonics introduces 10G PON transceivers for FTTP networks

AppliedMicro’s PQX debuts high-density framer/PHY SoC for multi-10G/40G/100G Carrier Ethernet and OTN applications/NeoPhotonics introduces 10G PON transceivers for FTTP networks

MARCH. 22, 2010 — Applied Micro Circuits Corp. (AppliedMicro) announced the PQX, which the company describes as the industry’s highest-density, lowest-power 10G/40G Optical Transport Network (OTN) framer/PHY System-on-a-Chip (SoC) for Carrier Ethernet router and WDM transport systems.

With 60 Gigabits of total capacity, the PQX is a key enabler for telecom and datacom customers to deploy next-generation 100G systems and cloud computing applications.

To transport increasing volumes of content-rich Ethernet traffic, telecom carriers and datacom service providers are quickly adopting OTN technology as the common transport protocol to achieve network convergence and reduce capital expenditures. AppliedMicro’s PQX incorporates the latest 10G and 40G telecom and datacom standards providing flexibility for either multiple 10G ports or single 40G port systems.  PQX offers unprecedented levels of integration on a single piece of silicon that exceeds any existing transport framer/PHY device in the world.  Implemented with an efficient architecture in an advanced 40nm CMOS process, PQX additionally achieves an unprecedented low power while providing up to 3 times higher capacity than existing OTN devices.

As an example, when operated in the Carrier Ethernet applications, PQX consumes a typical power of less than 1.5W/10G port, thereby enabling a new class of energy efficient solutions. PQX thus significantly reduces board space and system complexity in router and WDM system design and enables equipment OEMs to reduce system costs while reducing their carbon footprint.

The PQX is AppliedMicro’s third generation of OTN framer device with integrated high speed PHYs and Fractional-N clock synthesizers. Building on the success of the company’s Pemaquid and Yahara devices, the PQX provides the industry’s highest I/O bandwidth at 240Gbps at high performance and maintains compliance to various standards such as SONET/SDH, XFP/SFP+, and SFI5.1/CFP.

AppliedMicro’s PQX incorporates the latest telecom and datacom mapping modes and interfaces, including 10G FC Trans-code, 40 GE Trans-code, G.709 AMP and GMP mapping, ODU3e2 support, XFI/SFI, SFI5.1, XLAUI, OTL3.4, and STL256.4. These interfaces are instrumental in allowing multiple network protocols to converge and be transported over a common optical network. The PQX also includes Tri-FEC support (Reed-Solomon, G.975.1- I.4 and G.975.1-1.7) to ensure interoperability among multiple system OEMs and network operators.

The PQX will be available in two configurations: PQ50 with 50G worth of multi-protocol/ OTN transport capability and PQ60 with 60G worth of Carrier-Ethernet processing capability. Both are available in a 35 mm x 35 mm, FC-PGBA package. General availability of PQX development release samples is scheduled for July 2010.

MARCH 23, 2010 — NeoPhotonics in San Diego is introducing a line of 10G PON transceivers, compliant with the ITU-T G987.2 and IEEE 802.3av networking standards, to go with its GPON and GEPON modules for fiber to the premise (FTTP) networks for optical line terminals (ALT) and optical networking units (ONU) in central offices and at customer premises.

The ITU-T G987.2 compatible transceivers support data rates of 10G in the downstream direction and 2.5G burst mode transmission in the upstream direction covering nominal link budgets of 29 dB and 31 dB.

The IEEE 802.3av compatible transceivers support data rates of 10G in the downstream direction and 1G burst mode transmission in the upstream direction covering link budgets of up to 30.5 dB. The ALT transceivers come in the XFP form factor, and the ONU transceivers come in the SFP+ form factor.

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