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HomeMy WebLinkAbout20120119Application.pdfSjznga NETWORKS January 17,2012 Grace Seaman Idaho Public Utilities Commission 472 W.Washington P.O.Box 83720 Boise,ID 83720-0074 Dear Grace, U1H •I,’—.! RE:Broadband Investmcnt Tax Credit —Syringa Networks,LLC for 2011 I have attached our filing for the Broadband Investment Tax Credit for 2011.We invested a total of $4,216,848 for the year ended December 31,2011.I have attached the detailed report of our investments along with relevant footnotes for your purview.These assets were operational in 2011. Please let me know if you have any questions relating to the information that I have submitted. Our Network,Your Success. 3795 S.Development Ave.Boise ID 83705 (208)229-6100 ?D12 19 8: Nt VI! -JZ1 S S,Networks,LLC BEFORE THE IDAHO PUBLIC UTILITIES COMMISSION IN THE MATTER OF THE APPLICATION Case No: OF SYRINGA NETWORKS,LLC.,FOR BROADBAND INVESTMENT TAX CREDIT SYRINGA NETWORKS, CERTIFICATION LLC’s APPLICATION Syringa Networks,LLC files this Application for an Idaho Public Utilities Commission (“Commission”)order certif’ing that certain telecommunications equipment is eligible for the broadband infrastructure tax credit authorized by Section 63-3029,Idaho Code.In support of its Application,Syringa Networks,LLC states as follows: I)Syringa Networks,LLC is a provider of wholesale broadband telecommunications service,and other telecommunications services in southern Idaho. 2)During the calendar year 2011,Syringa Networks,LLC made certain investments that constitute “qualified broadband equipment”within the meaning of Section 63-3029(I)(3)(b),Idaho Code.Exhibit A -2004 (B),attached hereto, describes Syringa Networks,LLC’s qualified broadband equipment and contains the information and representation required by this Commission’s Order No.28784 in Case No.GNR-T-01-I0. 3)Communications regarding this application should be addressed to: Bachchi Samahon-Oumar Syringa Networks,LLC 3795 5.Development Avenue Boise,ID 83705 4)Applicant does not believe that the public interest requires a hearing on this matter,and therefore requests that the Commission approve the Application by Minute Order or under Modified Procedure.In the event the Commission determines that further proceedings are necessary,Applicant stands ready for immediate hearings. WHEREFORE,Syringa Networks,LLC requests that the Commission issue its order determining that the installed equipment in Exhibit A constitutes qualified broadband equipment eligible for the investment tax credit authorized by Section 63-3029 I,Idaho Code. RESPECTFULLY SUBMITTED,This 17th Bachcli anflon-umar,CPA VP and ghief Financial Officer Syring et ‘orks,LLC 3795 S.Development Ave.Boise ID 83705 (208)229-6100 __________________________________ Our Network,Your Success. L)yjznga TWORKS SY R I N G A NE T W O R K S , LL C I ID A H O BR O A D B A N D IN VE S T M E N T TA X CR E D I T - EX H I B I T A I To t a l In v e s t m e n t s in th e Sy r i n g a Fi b e r Op t i c Ne t w o r k : Ja n u a r y 1 - De c e m b e r 31 , 20 1 1 I DE S C R I P T I O N OF IN V E S T M E N T I IN V E S T M E N T S AP P R O V E D PE N D I N G CO S T S BR E A K D O W N 20 0 1 . 2 0 1 0 = 20 1 1 To t a l 20 0 1 . 2 0 1 1 20 1 1 Di r e c t 1 En g Al l o c Pe n d i n g To t a l Si e m e n s - Di g i t a l Sw i t c h 14 : 3 1 4 1 5 0 1, 4 : 3 1 4 ( 5 1, 4 : 3 1 , 4 ( 5 0 1, 1 ( 5 , 2 0 4 1( 1 , 5 4 : 3 d4 , ( 2 U 1, 4 : 3 1 , 4 ( 5 No r t e l - AT M Sw i t c h 76 1 1 3 6 0 76 1 , 1 3 6 76 1 , 1 3 6 0 68 5 , 5 4 9 50 , 6 7 1 24 , 9 1 6 0 76 1 , 1 3 6 Zh o n e s - DA C S 93 , 2 5 7 0 93 , 2 5 7 93 , 2 5 7 0 77 , 8 4 1 9, 5 2 1 5, 8 9 5 0 93 , 2 5 7 Fu j i t s u - SO N E T OC - 4 8 Mu l t i p l e x e r s 2, 6 2 2 , 2 6 1 A 63 , 9 6 2 2, 6 8 6 , 2 2 3 2, 6 2 2 , 2 6 1 63 , 9 6 2 2, 3 8 4 , 8 0 5 15 8 , 9 4 9 78 , 5 0 7 63 , 9 6 2 2, 6 8 6 , 2 2 3 AD V A - M o v a z - De n s e Wa v e Di v i s i o n a l Mu l t i p l e x e r s DW D M 2, 3 6 2 , 3 7 2 B 29 9 3 0 1 2, 6 6 1 , 6 7 3 2, 3 6 2 , 3 7 2 29 9 , 3 0 1 2, 2 8 6 9 9 3 40 , 9 2 2 34 , 4 5 7 29 9 , 3 0 1 2, 6 6 1 , 6 7 3 Mu l t i - P r o t o c o l Li n k i n g Sy s t e m [M P L S ] Eq u i p m e n t 31 2 , 0 9 5 C 45 1 0 6 9 76 3 , 1 6 4 31 2 , 0 9 5 45 1 , 0 6 9 31 2 , 0 9 5 0 0 45 1 , 0 6 9 76 3 , 1 6 4 Te k e l e c - ST P 70 4 , 2 2 2 0 70 4 , 2 2 2 70 4 , 2 2 2 0 56 5 , 1 3 9 93 , 7 9 0 45 , 2 9 3 0 70 4 , 2 2 2 Po w e r Bo a r d 63 2 , 6 6 8 D 8, 7 4 2 64 1 , 4 1 0 63 2 , 6 6 8 8, 7 4 2 57 7 , 5 7 0 23 , 3 3 6 31 , 7 6 2 8, 7 4 2 64 1 , 4 1 0 Po w e r Ge n e r a t o r 56 , 5 3 9 0 56 , 5 3 9 56 , 5 3 9 0 44 , 2 7 0 8, 6 5 7 3, 6 1 2 0 56 , 5 3 9 Po w e r Ba t t e r i e s 20 2 , 3 8 1 0 20 2 , 3 8 1 20 2 , 3 8 1 0 18 5 , 9 6 7 10 , 9 6 7 5, 4 4 7 0 20 2 , 3 8 1 Mi s c Ce n t r a l Of f i c e Eq u i p m e n t 1, 4 6 9 , 2 8 3 E 57 , 9 5 0 1, 5 2 7 , 2 3 3 1, 4 6 9 , 2 8 3 57 , 9 5 0 1, 4 4 8 , 1 1 6 11 , 3 9 1 9, 7 7 6 57 , 9 5 0 1, 5 2 7 , 2 3 3 IP Sw i t c h 28 6 , 3 1 7 F 56 , 8 3 3 34 3 , 1 5 0 28 6 , 3 1 7 56 , 8 3 3 28 6 , 3 1 7 0 0 56 , 8 3 3 34 3 , 1 5 0 P Co r e Up g r a d e 27 7 , 1 8 5 0 27 7 , 1 8 5 27 7 , 1 8 5 0 27 7 , 1 8 5 0 0 0 27 7 , 1 8 5 P Se r v i c e s Eq u i p m e n t in Id a h o Fa l l s 39 7 , 6 7 9 0 39 7 , 6 7 9 39 7 , 6 7 9 0 39 7 , 6 7 9 0 0 0 39 7 , 6 7 9 Ha g e r m a n Hu t [E l e c t r o n i c s / E n g i n e e r i n g & Ot h e r Co s t s ] 22 1 , 8 6 8 0 22 1 , 8 6 8 22 1 , 8 6 8 0 19 2 , 2 1 3 5, 2 3 7 24 , 4 1 8 0 22 1 , 8 6 8 Ha i l e y Hu t [E l e c t r o n i c s / E n g i n e e r i n g & Ot h e r Co s t s ] 61 5 , 5 5 5 0 61 5 , 5 5 5 61 5 , 5 5 5 0 59 7 , 3 8 3 12 , 0 8 5 6, 0 8 7 0 61 5 , 5 5 5 Ca I d w e l l Hu t [E l e c t r o n i c s / E n g i n e e r i n g & Ot h e r Co s t s ] 91 , 1 9 2 0 91 , 1 9 2 91 , 1 9 2 0 72 , 3 3 9 6, 3 0 6 12 , 5 4 7 0 91 , 1 9 2 Pa y e t t e Hu t [E l e c t r o n i c s / E n g i n e e r i n g & Ot h e r Co s t s l 96 , 2 8 7 0 96 , 2 8 7 96 , 2 8 7 0 96 , 2 8 7 0 0 0 96 , 2 8 7 Em m e t t Hu t [E l e c t r o n i c s / E n g i n e e r i n g & Ot h e r Co s t s ] 72 , 7 4 2 0 72 , 7 4 2 72 , 7 4 2 0 48 , 8 6 0 19 , 8 0 1 4, 0 8 1 0 72 , 7 4 2 Po c a t e l l o Hu t [E l e c t r o n i c s / P o w e r / S w i t c h & Ot h e r Co s t s ] 0 G 11 5 , 0 8 0 11 5 , 0 8 0 0 11 5 , 0 8 0 0 0 0 11 5 , 0 8 0 11 5 , 0 8 0 Me r i d i a n IS P [I d a h o St a t e Po l i c e ] - 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WO # 13 4 Fi b e r Co n n e c t i o n to Ri g b y , ID Cl a y Pe a k Pa y e t t e - Wo r k Or d e r # 12 7 Pa y e t t e Ci t y - Wo r k Or d e r # 12 8 45 . 9 5 22 . 4 1 26 . 8 1 30 . 2 2 34 . 7 9 7. 0 0 12 6 , 5 0 5 12 6 , 5 0 5 IN V E S T M E N T S AP P R O V E D PE N D I N G CO S T S BR E A K D O W N 20 0 1 . 2 0 1 0 — 20 1 1 To t a l 20 0 1 . 2 0 1 1 20 1 1 Di r e c t En g Al l o c Pe n d i n g To t a l 1, 8 0 1 , 8 1 2 — 0 1, 8 0 1 , 8 1 2 1, 8 0 1 , 8 1 2 0 1, 5 4 8 , 8 4 0 16 6 , 7 8 9 86 , 1 8 2 0 1, 8 0 1 , 8 1 2 86 2 , 9 6 5 0 86 2 , 9 6 5 86 2 , 9 6 5 0 75 0 , 2 3 9 82 , 4 6 2 30 , 2 6 4 0 86 2 , 9 6 5 1, 8 2 7 , 4 8 8 18 5 8 0 6 2, 0 1 3 , 2 9 4 1, 8 2 7 , 4 8 8 18 5 , 8 0 6 1, 3 1 0 , 2 1 7 44 0 , 3 6 9 76 , 9 0 2 18 5 , 8 0 6 2, 0 1 3 , 2 9 4 1, 4 2 7 , 7 9 6 0 1, 4 2 7 , 7 9 6 1, 4 2 7 , 7 9 6 0 1, 0 1 9 , 1 3 4 29 9 , 2 2 1 10 9 , 4 4 1 0 1, 4 2 7 , 7 9 6 1, 1 7 7 , 6 1 0 0 1, 1 7 7 , 6 1 0 1, 1 7 7 , 6 1 0 0 96 1 , 7 4 0 97 , 3 6 1 11 8 , 5 0 9 0 1, 1 7 7 , 6 1 0 1, 2 1 2 , 0 7 0 18 , 0 6 1 1, 2 3 0 , 1 3 1 1, 2 1 2 , 0 7 0 18 , 0 6 1 1, 2 1 2 , 0 7 0 0 0 18 , 0 6 1 1, 2 3 0 , 1 3 1 25 2 , 2 8 7 6, 0 2 7 25 8 , 3 1 4 25 2 , 2 8 7 6, 0 2 7 25 2 , 2 8 7 0 0 6, 0 2 7 25 8 , 3 1 4 11 , 5 9 7 0 11 , 5 9 7 11 , 5 9 7 0 11 , 5 9 7 0 0 0 11 , 5 9 7 27 , 0 8 6 0 27 , 0 8 6 27 , 0 8 6 0 27 , 0 8 6 0 0 0 27 , 0 8 6 7, 8 3 0 0 7, 8 3 0 7, 8 3 0 0 7, 8 3 0 0 0 0 7, 8 3 0 91 , 0 8 3 0 91 , 0 8 3 91 , 0 8 3 0 71 , 2 3 4 15 , 8 4 4 4, 0 0 5 0 91 , 0 8 3 41 , 3 3 5 0 41 , 3 3 5 41 , 3 3 5 0 33 , 7 6 3 6, 5 0 6 1, 0 6 7 0 41 , 3 3 5 21 , 0 3 2 0 21 , 0 3 2 21 , 0 3 2 0 15 , 9 8 3 5, 0 4 9 0 0 21 , 0 3 2 1, 2 1 3 , 9 7 2 17 6 , 5 0 1 1, 3 9 0 , 4 7 3 1, 2 1 3 , 9 7 2 17 6 , 5 0 1 1, 2 1 3 , 9 7 2 0 0 17 6 , 5 0 1 1, 3 9 0 , 4 7 3 87 , 4 5 0 20 5 , 3 3 9 29 2 , 7 8 9 87 , 4 5 0 20 5 , 3 3 9 87 , 4 5 0 0 0 20 5 , 3 3 9 29 2 , 7 8 9 37 , 4 5 6 0 37 , 4 5 6 37 , 4 5 6 0 37 , 4 5 6 0 0 0 37 , 4 5 6 0 49 4 0 4, 9 4 0 0 4, 9 4 0 0 0 0 4, 9 4 0 4, 9 4 0 0 55 8 0 5, 5 8 0 0 5, 5 8 0 0 0 0 5, 5 8 0 5, 5 8 0 41 , 3 0 7 , 2 6 5 4, 2 1 6 , 8 4 8 45 , 5 2 4 , 1 1 3 41 , 3 0 7 , 2 6 5 4, 2 1 6 , 8 4 8 36 , 1 8 3 , 8 6 1 3, 2 2 6 , 4 6 0 1, 8 9 6 , 9 4 3 4, 2 1 6 , 8 4 8 45 , 5 2 4 , 1 1 1 Br o a d b a n d Cr e d i t - PE N D I N G - fo r 20 1 1 - 3% of 20 1 0 Qu a l i f i e d In v e s t m e n t To t a l Br o a d b a n d In v e s t m e n t Ta x Cr e d i t Pe n d i n g 20 1 1 = BR O A D B A N D _ I N V S T _ C R E D I T _ 2 0 1 1 2 of 2 SY R I N I 3 A NE T W O R K S , LL C I ID A H O BR O A D B A N D IN VE S T M E N T TA X CR E D I T - EX H I B I T A I [A J Fu j i t s u - BO N E T OC - 4 8 Mu l l i p l e n e r s FU J I T S U NE T W O R K CO M M U N I C A T I O N S FW 4 5 0 5 OL L S Or g E . 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IF A 2 - L B C 1 OC - 4 6 l3 I O n m , SM F LR , LC Co n e , EP k m FU J I T S U NE T W O R K CO M M U N I C A T I O N S IF A 2 - L B C 2 00 - 4 6 15 5 0 c m WO , SM F , LR 3 , LC Ba k e r [B [ AD V A - M e e u a - De n s e Wa n e Di n i s i n n a l Me l l i p l e s u r s DW O M AO V A OP T I C A L NE T W O R K I N G NA , IN C :1 1 ) 2 50 OM L XC V R ca r d wit h VG A Bo r n e Sp a r e s AO V A OP T I C A L NE T W O R K I N G NA , IN C (1 ) 2 . 5 0 MZ - E M L 0C V R ca r d wit h VO A : B o r n e Sp a r e s AO V A OP T I C A L NE T W O R K I N G NA , IN C (2 ) SIM - 2- p e r t Da t a Ma e : B n r n e Sp a r e AO V A OP T I C A L NE T W O R K I N G NA , IN C (4 ) Ca h I e An n y , Op t i c a l , LC - L C 66 . 0 Bo r n e Sp a r e AD V A OP T I C A L NE T W O R K I N G NA , IN C : (4 ) XC V R , OF F , Mu l t i - R a t e , SM , 2,S : B x i n e Sp a r e AD V A OP T I C A L NE T W O R K I N G NA , IN C . : ) I) OL D W/ Ra r r r a r r Ato p , lh l g n r r r OS C AD V A OP T I C A L NE T W O R K I N G NA , IN C . Mis c XF P n , t3 t O n m n , ao e o u a t o r n , (u n i p e i n AO V A OP T I C A L NE T W O R K I N G NA , IN C . (I ) FO P Ntw k Mn g r Sr n r Lix , (1 1 ) FO P NIw k Mg r Ca n n Li x AD V A OP T I C A L NE T W O R K I N G NA , IN C : (3 ) Da a I Te r r r r r n a l 10 0 Ce r n XP D R wO E 2o XF P - Bo o n Sp a r e AO V A OP T I C A L NE T W O R K I N G NA , IN C (1 ) Up te l 10 XF P OW O M IF . Ve r y lo n g re a c h - Bo i s e Sp a r e AO V A OP T I C A L NE T W O R K I N G NA . IN C .1 2 ) 1 1G XF P IF . 13 1 0 c m , St a n d a r d Re a c h AO V A OP T I C A L NE T W O R K I N G NA . IN C (2 ) Da a I Te r m w a l lE G Ac c e s s XP D R 2a J t F P AO V A OP T I C A L NE T W O R K I N G NA , IN C (2 ) Op t i c a l At t e n a a t o r 3d B LC Co n n e c t o r AO V A OP T I C A L NE T W O R K I N G NA , IN C . (2 ) Up lo t IG XF P OW O M IF Vry lo n g re a c h AD V A OP T I C A L NE T W O R K I N G NA , IN C (B ) Ju m p e r Ic r in t e r ca l ca b l i n g - Og l e Mo d e , LC AD V A OP T I C A L NE T W O R K I N G NA , IN C 1 tG XF P n - lO G Ba c k h a x l Bo r n e AD V A OP T I C A L NE T W O R K I N G NA , IN C . : (3 ) FO P 30 0 0 R 7 Sh a r e d co m m o n s an d co r r r p n n e r r t n AD V A OP T I C A L NE T W O R K I N G NA , IN C (2 ) Du a l Te r m i n a l 10 0 Ca r e XP O R : OW O M Up g r a d e AD V A OP T I C A L NE T W O R K I N G NA , IN C . : 0D M Fil t e w , 11G XF P n , DC Pw r Ca b l e , Fi l l e r , Ag e n , SC U , NE C U , Pin e Sp l y AD V A OP T I C A L NE T W O R K I N G NA , IN C Op t i c a l Ar r r p l i h e r In c OW O M Ne t w o r k . Sp a r e AD V A OP T I C A L NE T W O R K I N G NA . IN C (I ) FO P Ne t w o r k Ma n a g e r Cn o e e c t m n Lic e m r n e : DW O M Up g r a d e AD V A OP T I C A L NE T W O R K I N G NA , IN C (1 ) Po w e r Ss p p i y Mo d u l e DC fo r 7H U sh e l l : OW O M Up g r a d e AD V A OP T I C A L NE T W O R K I N G NA . IN C . 1 1G XF P s , Ja e r p n r s . NE C U . Ao n n a a t o r n . Pe w 5p 1 y OW O M Up g r TW F L AD V A OP T I C A L NE T W O R K I N G NA . IN C (2 ) Du a l Te r e r w a l lO G Co r e : OW O M Up g r a d e ’ TW F L AD V A OP T I C A L NE T W O R K I N G NA . IN C fI G XF P n , Ju m p e r s , NE C U , Alt n n a a t n r n , Prm Sp l y : OW O M Up g r Min k Cr e e k AO V A OP T I C A L NE T W O R K I N G NA , IN C : (3 ) De a l Te r m i n a l lO G Co r e : DW O M Up g r a d e Min k 0t h AD V A OP T I C A L NE T W O R K I N G NA IN C ‘(1 ) Ne t w o r k Ele m e n t Co r r l m l Un i t : DW D M Up g r a d e ’ AM F L AD V A OP T I C A L NE T W O R K I N G NA , IN C .1 2 ) 1 1G XF P IF , l3 l E n r n , St a n d a r d Re a c h DW D M Up g r a d e . AM F L AD V A OP T I C A L NE T W O R K I N G NA , IN C ‘( 2 ) Da a I Te r e r i r r a l lO G Co r n : OW D M Up g r a d e : AM F L AD V A OP T I C A L NE T W O R K I N G NA . IN C ‘( 2 ) Op t i c a l Ag n o x a r o r 0 dB LC Co n e n e l a r : DW D M Up g r a d e . AM F L AD V A OP T I C A L NE T W O R K I N G NA . IN C ‘( 2 ) Op l i x a l Ag e n a a t o r B dB LC Co n e e x t o r : DW D M Up g r a d e AM F L AO V A OP T I C A L NE T W O R K I N G NA , IN C ‘(2 ) Po w e r Sa p p l y Ma d a m : DW D M Up g r a d e . AM F L AD V A OP T I C A L NE T W O R K I N G NA , IN C (4 ) Ju m p e r fo r in t e r n a l ca b l i n g DW D M Up g r a d e ’ AM F L AD V A OP T I C A L NE T W O R K I N G NA . IN C (2 ) Po w e r Sa p p l y Ma d u l n ’ DW D M Up g r a d e Ch a l l i s AD V A OP T I C A L NE T W O R K I N G NP , IN C . (2 ) Ne n a n t h El e m e W Co n b o l Un i t DW D M Up g r a d e AO V A OP T I C A L NE T W O R K I N G NA . IN C I t2 ) Ja i n p a r fo r in t e r n a l ca b l i n g . DW D M Up g r a d e Bo n e AI 2 V A OP T I C A L NE T W O R K I N G NA , IN C :1 2 1 Po w e r Sn p p i y Mo d u l e DC : DW D M Up g r a d e : Bo i s e AD V A OP T I C A L NE T W O R K I N G NA . IN C ‘) I Dc x l Te r n r r n a l 1S G Ca r e XP D R DW D M Up g r a d e Bo r n e AD V A OP T I C A L NE T W O R K I N G NA . IN C 10 1 1 tG XF P IF l3 t O n m , Sta n d a r d Re a c h Db V D M Up g r a d e Bo i s e AO V A OP T I C A L NE T W O R K I N G NA , IN C . li l l Op t i c a l Me r r a a t o r S dB LC Ca n n e x t o r DW D M Up g r a d e : Bo i n AD V A OP T I C A L NE T W O R K I N G NA , IN C (B ) Op l i c a l Ag e e x a t o r B dB LC Co n n e c t o r DW D M Up g r a d e . Bo r n AD V A OP T I C A L NE T W O R K I N G NA . IN C (1 ) Ne t w o r k nle r e e s t ce e t r x l arr i r : OW D M Up g r a d e : Fil e r AD V A OP T I C A L NE T W O R K I N G NA . IN C . )2 ) Po w e r Su p p l y Ma d a m DC : OW O M Up g r a d e : Fi l e r AD V A OP T I C A L NE T W O R K I N G NA , IN C . . 1 IG XF P n , Je n r p e r n , NE C U , Fa n , Ao e n n a t o r n , OC U , RT U , Prw Sp l i t ’ OW O M Up g r AO V A OP T I C A L NE T W O R K I N G NA , IN C . : (2 ) Da a l Te r r e i n a l lE G Co r n XP D R . OW O M Up g w d e . AD V A OP T I C A L NE T W O R K I N G NA , IN C 11 0 XF P s , Ju r r r p e r n , NE C U , Pa s , Att e n u a t a r s , SC U , RT U , Prm Sp i p : OW O M Up g r AO V A OP T I C A L NE T W O R K I N G NA . IN C . (3 ) Ds a I Te r n r i e a t lE G Co r e XP O R OW O M Up g r a d e AD V A OP T I C A L NE T W O R K I N G NA , IN C . . ttG XF P s , DC Pw r Ca b l e , Fil l e r , Alt e c , SC U , NE C U . Pm SP I N AD V A OP T I C A L NE T W O R K I N G NA , IN C (3 ) De a l Te r e r u r a l lO G Co r e XP D R DW D M Up g m d e AD V A OP T I C A L NE T W O R K I N G NA , IN C OA D M Fd t e r , DW D M Da t a lO G E Up g r a d e AD V A OP T I C A L NE T W O R K I N G NA . IN C Dn n r t e FO P 30 0 0 R 7 Pr o d u c t Tr a r e r n g AD V A OP T I C A L NE T W O R K I N G NA , IN C I tG XF P s , Ju m p e r s , NE C U . Ao e n n , Pm Sp l y DW D M Up g r AD V A OP T I C A L NE T W O R K I N G NA , IN C .( 4 ( De a l Tn r r n r r r a l lO G Co r e : DW D M Up g m d e AD V A OP T I C A L NE T W O R K I N G NA , IN C . (4 6 ) Ve r y Lc r r g Re a c h , CR lID . DW D M Up g r a d e IE I Mrs u Cu e t r u l GIl i n u Eq u i p m e n t 0m m Sy s t e m s , In c . (1 ) Ca t a l y s t 65 0 0 Dm 1 Fw d Ca r d -S p a r e AN I X T E R IN C : Ca b l e s , ra c k me a n t pa n e l s , sp l i c i n g tr a y - B o i n e Dis t r i b u t i o n Pa n e l EX F O AM E R I C A IN C (2 ) Te s t Kit an d (2 ) SF P up t tr a n n c mo d u l e s ’ lB GE Te n t Ge a r GR A Y B A N EL E C T R I C CO M P A N Y , IN C . Se e i n g To n I , An c h o r s , ca b i n e t ’ IR O N SY S T E M S , IN C ‘1 2 ) Ra c k ne r n e r s JU P I T E R CO M M U N I C A T I O N S LL C : Fib e r co u n t s Ic r FC U P C to pq t a i l , in d , B n m n e CD Di n t Pa n e JU P I T E R CO k I M U N I C A T I O N S LL C (2 ) Lro e Fi b e r ld e n h l i e r n Ba i e n T e n t Eq u i p m e n t TH I N K LO G I C A L : (3 ) 0 0 0 6 Po e , DC NIC Te r m i e a l Se r u e r VIS A : Wir e l e s s Ra n g e Fir ’ 4 e r JU P I T E R CO M M U N I C A T I O N S LL C (2 ) Eth e r e n t Se m e r c e In s t a l l u l i n e Te s t e r s ID F L [F ] IP Sw i t n l r Cm x c Sy s t e m s , In c : PE S O RS P 7 2 O lO S An n En t Sr n c Crn c o Sy s t e m s . In c : Ca t a l y s t 60 0 0 24 - P o d Gig E Cm x x Sy s t e m s , In a : Ca t a l y s t 65 0 0 Ch a s s i s Crs x o Sy s t e m s , In c : Om a n 70 0 0 Sw r l c h Cm x x Sy s t e m s , In c Ct l y s t 65 0 6 - S Ch a n n r n Fa n Tr a p Cw x n Sy s t e m s , In c Cly s t 60 0 6 25 0 0 W DC Fw r Su p p l y Ow e n Sy s t e m s , In c 76 0 0 RI e Sw / c h Pr n x e s s n r , VD L O G Y : (2 ) Cir c a 26 1 1 Ro u t e r wI D C Po w e r VO L O G Y : (2 ) Ci n x o P2 0 0 DC Po w e r Sa p p l y [C ] Mu l l m - P r a l u e u l Li s k i s6By s l u m [M P L B ] Eq n i p n r s e t [H ] Eq n i p m n e l at Cn s t e m e r Pr e e d s u s Cm x x Sy s t e m s , In c lg G Lr e n c a r d - B Po r l lO G Eth n f Mm c m l . AD V A OP T I C A L NE T W O R K I N G NA , IN C . : ) I) 7H U sh e l f , re a r pe w e r ex c e s s , wi t h sh e l l Cm x c Sy s l e m s . ln x : (2 ) lO G ES Lm n n x a m d Ma a n c n d Li c e n s e AO V A OP T I C A L NE T W O R K I N G NA . IN C : (I ) Du a l Tn r m r e a l lO G Co r e XP D R Cm x x Sy s t e m s , In c : (2 ) 70 0 0 ES n X C Co r e b n - AD V A OP T I C A L NE T W O R K I N G NA , IN C . : (I ) FO P Ne t w o n k Ma n a g e r xn e m m n c t m e n l r c e n n n Cm x c Sy s l e m s , In n : B po e 10 Gr g a h i t Eth e r n e t mo d e l e : Ba m s e AD V A OP T I C A L NE T W O R K I N G NA , NC , : (1 ) Op t i c a l An e n e a t o r 3d B LC Co n n e c t o r Cm x x Sy n l e e r s , le a : 2) 70 0 0 ES e X O Co m b o : Bo r n e AD V A OP T I C A L NE T W O R K I N G NA , IN C . : (1 ) Op t i c a l Ao e n a a t o r 5d B LC Co n e Crn x n Sy s t e m s , In c . ) 1) Po w e r so p p l y ta r ME 3 B S O X - Bo i s e Sp a r e AD V A OP T I C A L NE T W O R K I N G NA , IN C : (U Op t i c a l Al t e n e a t o r BO B LC Co n n Cr s c o Sy s t e m s , le e ’ ME 3 E O O t a M E 3 0 0 5 X OC Po w e r Su p p l y Bo i s e La h AD V A OP T I C A L NE T W O R K I N G NA , IN C ) l( R r g h t to us e CW D M an d OW D M en r n g Co r e , Acr o s s Ci s n n Sy s t e m s . le e : ME 3 B O O X Ca r r i e r Et h u t n e t Sw i t c h Bo n e La b AD V A OP T I C A L NE T W O R K I N G NA . IN C . . ) l) U p to 11 0 XF P DW D M IF , an r y lo n g re a c h Ow e n Sy s t e m s , le e : ME 3 0 0 5 X Mn t m Ag g r e g a t r u n Se m v r c e Lic e n s e , Bu i n e La b AD V A OP T I C A L NE T W O R K I N G NA . IN C . : 12 ) 10 1 1 IG SC V R ca r d wi t h VD A , Ch 5 3 , 15 3 0 . 0 4 Ci n x s Sy s t e m s , In n 12 1 lO G ES Lr e e r a r d s n/A d o Li c e n s e s Bo r n e FE AD V A OP T I C A L NE T W O R K I N G NA , IN C (2 ) I0- p o e Gr0WF C I S D N E T I S O H , 10 0 co r e ma o Ol s e n Sy s t e n r n , ta x (2 ) Se a r e d Pe n Ma p l e m s ’ AD V A OP T I C A L NE T W O R K I N G NA , IN C 12 ) 1 10 OF F IF , l3 l O n m , Sta n d a r d Re a c h Ci r c a Sy s t e m s , le e (4 1 M B 34 0 X , (4 ) ME 3 4 0 0 E SF P e . AD V A OP T I C A L NE T W O R K I N G NA , IN C . : (2 ) 4 - p a n Ch a n n e l Sp l i t e r , ch a n n e l gm u e p 1,4 0 Co c a Sy s t e m s , le e (1 1 ME 3 6 0 0 X EtE Sw E c h , IF Ac c e s s , Up g Lie , 2P w r Sp l y s AD V A OP T I C A L NE T W O R K I N G NA , IN C (2 ) 6-p e n Gr o u p Sp l E e n C- B a n d BG S M - 6 D 0 1 - B D 3 2 Cm n r o Sy s t e m s . In n (1 ) ME 3 0 0 I I X StI r Sn i t c h , IF Ac r e s s . Up g Lix , 2F w r Sy l y s AD V A OP T I C A L NE T W O R K I N G NA , IN C . : (2 ) Du a l Te r m i n a l lO G Ac c e s s OF D R 26 0 F F Cn c o Oy s t n m s , In c . (2 ) 6 po e tO Gi g Elh e m n e l er o d a l e wI DF C 3 C X L : IO F L P Ro u t e r s AD V A OP T I C A L NE T W O R K I N G NA , IN C . : (2 ) Mo d a l e , Fi b e r Bre a k o u l , MT P In LC , 12 - p d Cm n x e Sy s l e m s , le o : (2 ) lE G Lr n e c a r d Co e n h e n/ M e Li c e n s e ID F L PS AD V A OP T I C A L NE T W O R K I N G NA . IN C . : (2 ) DA O M Fi l t e r wit h ID , 10 0 G H a , CR 5 3 , 15 3 0 . 0 4 ME M O R Y DE A L E R S , C O M . IN C : (2 ) lO G Dp h n s , (2 ) SF P Tr e e s ’ ID F L P Ro u t e r s AD V A OP T I C A L NE T W O R K I N G NA , IN C . (2 ) Op t i c a l nu p e r n i s o r y ch a n n e l Bit e r mn o d a l n ME M O R Y DE A L E R S CO M , IN C : (1 ) Ag i l e s t a r XF P , (1 ) X2 , ae d (0 ) lO G Tr a n n x e r n e r n (C i s m o Co m p a AD V A OP T I C A L NE T W O R K I N G NA , IN C . : (2 ) Se r v i c e In t e r l a c e Mo d u l e - f 2-p o e Gig S TR I TO W E R TE L E C O M CO R P O R A T I O N 11 7 ) lO G Op t i c s PS . MP L S In l r a s l r a c l u r e AD V A OP T I C A L NE T W O R K I N G NA , IN C . : (2 ) Up In 11 0 XF P DW D M IF Vry la n g re a c h TR I TO W E R TE L E C O M CO R P O R A T I O N . (1 6 ) Co e n n e e r Mo d a l e ’ P Ro o t e r s MP L S ln f m s t r u x t e r e AD V A OP T I C A L NE T W O R K I N G NA , IN C ’ l l G XF P n - tO G Ba c k h a x l TW F L AD V A OP T I C A L NE T W O R K I N G NA . IN C : In s t a l l u f n e , ca r d s , sh e l l , as s y , k/n , ao e n u a l n : n AD V A OP T I C A L NE T W O R K I N G NA . IN C . : Mw c l3 I 0 e m s , att e n u a t o r s , ju m p e r s LD ] Pu w e r Be a r d AD V A OP T I C A L NE T W O R K I N G NA , IN C . : OF F IF s , Ja m p e r n . NC U , At e n u a t o r s , DC Fw r , Op t Su r e Ch a e Mn ’ PI C S TE L E C O M (I ) Em e r s o n Lo r a n Ru r t i S e r Bo r n e CD Ar4 I X T E R IN C (I ) DS X Pa n e l MO D E R N EN T E R P R I S E