The QSFP+ transceiver comparison

For QSFP+ formfactor there are different variants. I did a comparison of the optical ones - February 2014 - updated March 2018: (without Active-Optical-Cables and Direct-Attached-Cables)

QSFP+ WITH LC		QSFP+ WITH MTP/MPO
	↔
Q.1640G.03		Q.1340G.2 Q.1340G.10

The main difference between Q.1640G.x and Q.85/1340G.x is the connector type. QSFP+ like Q.1640G.x do have an integrated CWDM Mux/Demux which multiplexes all 4 lanes to only one fiber. This gives the ability to use a LC-Duplex connector with a standard Multimode- or Singlemode-Fiber.
Some nomenclatures like LM4, LX4, IR4 are really confusing. Let me explain in short:

• LM4: Is long-range Multimode (100-140m OM3 / up to 160m on OM4)
• IR4: Is 2km on Singlemode
• LX4: Combines both - 2km Singlemode and 100-160m Multimode

QSFP+ with MTP/MPO connector are more price sensitive. There is just a cabling with MTP/MPO cables needed.

Description/ Connector	Distance	Wavelength	Connector	Details	Interoperability	Provider
QSFP+ SR4	100m (OM3) 150m (OM4)	4 x 850nm	MTP/MPO	IEEE 802.3ba (40GBASE-SR4)	QSFP+ extended SR4 SFP+ SR	Flexoptix Q.8540G.02 Cisco QSFP-40G-SR4 Juniper QFX-QSFP-40GE-SR4 Arista 40GBASE-SR4 Brocade 40G-QSFP-SR4*
QSFP+ eSR4	300m (OM3) 400m (OM4)	4 x 850nm	MTP/MPO	optimized VCSEL with better performance of RMS spectral width compared with QSFP+ SR4	QSFP+ SR4 SFP+ SR	Flexoptix Q.8540G.03 Juniper QFX-QSFP-40GE-ESR4* Arista 40GBASE-XSR4
QSFP+ LX4	150m (OM3) 160m (OM4)	1270nm, 1290nm, 1310nm, 1330nm	LC	Multimode optimized 4-Kanal CWDM Mux/Demux inside		Flexoptix Q.1640G.03 Juniper JNP-QSFP-40G-LX4
QSFP+ BIDI SR	100m (OM3) 120m (OM4)	1 x 850nm 1 x 900nm	LC	BIDI for Multimode is hot! 20G per lambda!	only available from Cisco at the moment	Cisco QSFP-40G-SR-BD
QSFP+ IR4	1km (G.652)	1270nm, 1290nm, 1310nm, 1330nm	LC	4-Channel CWDM Mux/Demux inside	SFP+ CWDM	Flexoptix Q.1640G.2 Arista 40GBASE-LRL4 Juniper JNP-QSFP-40GE-IR4
QSFP+ LR4	10km (G.652)	1270nm, 1290nm, 1310nm, 1330nm	LC	IEEE 802.3ba (40GBASE-LR4) 4-Channel CWDM Mux/Demux inside	SFP+ CWDM	Flexoptix Q.1640G.10 Juniper JNP-QSFP-40G-LR4 Cisco QSFP-40G-LR Arista 40GBASE-LR4 Brocade 40G-QSFP-LR4
QSFP+ LR4	10km (G.652)	1270nm, 1290nm, 1310nm, 1330nm	LC	IEEE 802.3ba (40GBASE-LR4) 4-Channel CWDM Mux/Demux inside	SFP+ CWDM	Flexoptix Q.1640G.20
QSFP+ ER4	30km (G.652)	1270nm, 1290nm, 1310nm, 1330nm	LC	IEEE 802.3ba (40GBASE-ER4)	SFP+ CWDM	Flexoptix Q.1640G.40
QSFP+ PIR4	1km (G.652)	4 x 1310nm	MTP/MPO APC	4 x 10G operations on SMF	QSFP+ parallel LR4 SFP+ LR	Flexoptix Q.1340G.2 Arista 40GBASE-PLRL4 Juniper JNP-QSFP-4x10GE-IR
QSFP+ PLR4	10km (G.652)	4 x 1310nm	MTP/MPO APC	4 x 10G operations on SMF	QSFP+ short parallel LR4 SFP+ LR	Flexoptix Q.1340G.10 Arista 40G-PLR4

Note: a QSFP+ LR4 is interoperable with a QSFP+ LR4. I didn't mention this in the columen "interoperability" for a better overview. This applies to all other types as well.
* Juniper enables for their QFX-QSFP-40GE-ESR4 also 4 x 10G operations - to split up one QSFP+ port in 4 dedicated 10G ports (credits go to Tom Eichhorn for working tirelessly on the QFX tests). The same applies for Brocade. For this kind of operation they defined a special article/partnumber 40G-QSFP-SR4-INT. From a technical point of view this "split operation" is possible with all QSFP+ mentioned above. QSFP+ get always 4 x 10G from the host on the electrical side. Only the programming of the transceiver needs to be adapted for the host. On the optical path you have to check how to split up the signal in 4 dedicated 10G lines. For the ones with MTP/MPO receptacle this is not a problem with  Breakout-cables.