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NEC Neax 2400 Ipx Feature Programming Manual

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    							NEAX2400 IPX Feature Programming ManualPage 428NDA-24297, Issue 1
    L-5 Least Cost Routing - 3/6-Digit
    Programming
    STEP 1:ASYD- System Data 1, Index 6, Bit 0. Should special Sender Tone be sent to station when connected
    to a sender? 0/1: No/Yes. (Optional)
    System Data 1, Index 6, Bit 2. Should special Sender Tone be sent to the Attendant Console when
    connected to a sender? 0/1: No/Yes. (Optional)
    System Data 1, Index 65. Assign the number of routes in the system.
    System Data 2, Index 2, Bit 0. What is the sender type for an OG trunk connection to a station? 0/1:
    Dial Pulse/Push Button. This data is valid only when CDN 2:ONSG of Route data is assigned as data
    “3”,PB/DP.0
    System Data 2, Index 2, Bit 1. What is the sender type for an OG trunk to the Attendant Console? 0/1:
    Dial Pulse/ Push-button. This data is valid only when CDN 2:ONSG of Route data is assigned as data
    “3”,PB/DP.
    STEP 2:ARTD- Assign the LCR(S) route as shown below. For uniformity, always use Route 31 as the LCR(S)
    Flag route. In CDN 13:AC, include the LCR(S) access code in LCR(S) development.
    Assign the LCR(S) Flag route as shown below:
    RT: 31
    6-TCL :1 7-L/T :1 8-RLP :2 9-TQ :1 13-AC :1
    STEP 3:AT R K- Assign Originating Register Trunks (ORT) to the system in a quantity calculated from
    expected traffic. Registers are located on levels 0-3 of any 8RST circuit card.
    Senders must be assigned to the system in a quantity calculated from expected traffic. Senders are
    located on levels 4-7 of any 8RST circuit card.
    RT: Route Number
    Trunk Route Number
    Intra-office Route Number (901-931)
    901-ATT 913-TCFT for ATT
    902-ORT 915-Night ATT
    903-IRT 916-MFCR
    905-Sender 917-MFCS
    909-DCFT 919 to 926-Modem
    TK: Trunk Number
    TN: Tenant Number
    RSC: Route Restriction Class
    SFC: Service Feature Class
    For the outgoing trunks used in LCR(S), refer to those specific route access features.
    STEP 4:MBTK- Assign the Make Idle status to all register sender trunks.
    STEP 5:ANPD- Reserve a level, usually“9”, for LCR or LCR (S) access. Assign Connection Indexes, CI = N,
    H; Normal (N) and Hooking (H). Number of Necessary Digits is 1. Busy Lamp Field is not activated.
    STEP 6:ASPA- Assign the LCR (S) access code, Type of Service, SRV = LCR (Least Cost Route Selection)
    or SRV = LCR (S) (Register Sender LCR). Assign route number 31 associated with this access code.
    Assign Connection Indexes, CI = N, H; Normal (N) and Hooking (H). Assign data“1”for second dial
    tone, parameter (2nd dial tone). Assign data“1”to AH parameter if Procedure II is used for
    AUTHORIZATION CODE [A-20].
    STEP 7:ARNP- Assign the physical route numbers as assigned in ARTD and relate these routes to the LCR
    (S) access code as assigned in ASPA for SRV = LCR (Least Cost Route Selection) / LCR (S) (Register
    Sender LCR). The LCR (S) access code is usually“9”. The routes to be assigned will be those routes
    listed in the various OPRs of the AOPR command. 
    						
    							NEAX2400 IPX Feature Programming Manual
    NDA-24297, Issue 1Page 429
    Least Cost Routing - 3/6-Digit L-5
    Programming (cont’d)
    Note:These same routes may also be listed in ASPA for SRV = OGC (Outgoing Call). In that case, these routes
    may also be available via direct dial access codes. In ARNP, these access codes are not assigned to
    implement the LCRS service in this command. This digit code is the first digit used when assigning the ATDP
    table.
    STEP 8:ARSC- LCR(S) uses only Bothway or Outgoing Only routes. For these routes, construct allow, deny,
    or Toll Restriction applicable tables (Route Restriction Index RRI 2 & 3). Toll Restriction will be
    applied to the available route chosen by the LCR (S) selection. Therefore, if a user dials a long distance
    number and is restricted in Toll Restriction for a DDD and the only available route is a DDD, the call
    will be denied. Toll Restriction acts upon the LCR (S) selection. Also, remember to allow route 31, the
    LCR(S) Flag Route to all RSCs. Do not toll restrict the Flag route.
    STEP 9:AMND- Assign the Maximum Necessary Digit (MND) the system must translate for a proper route
    selection. List the following type of dialing sequences.
    Note:The digits underlined are to be listed in the DC parameter. Overseas or Operator-assisted calls should be
    listed with an MND that equals the calculated number of necessary digits. Special dialing sequences such
    as 411 with an MND = 4 should also be listed.
    Note:The digits underlined are to be listed in the DC parameter. Overseas or Operator-assisted calls should be
    listed with an MND that equals the calculated number of necessary digits. Special dialing sequences such
    as 411 with an MND = 4 should also be listed.
    STEP 10:AFRS- List the dialing patterns in groups that will be served by a specific sequence of routes. For
    example, consider the following dialing patterns:
    9-1-617, 9-1-413, 9-1-207, 9-1-203, 9-1-603.
    Each of these area codes exist in the Northeastern United States. From New York City, it may be
    determined that the least expensive way to place any of these calls is by a Band 1 WATS, then BAND
    5 WATS, then DDD. This determination of routes is labeled as an Outgoing Pattern Route or OPR. In
    AFRS, program the Tenant, Route Number (Flag Route 31), The Number Code or dialing patterns, and
    the OPR to be chosen when these digits are dialed. (For other OPRs, use the DELETE key.)
    STEP 11:AO PR- The AFRS command designates the dialing sequence and the OPR to be selected. The AOPR
    defines the routes and in what order these routes will be selected. Assign the following:
    TDPTN No.(TDPTN) - Time of Day Pattern Change. If an AFRS assignment, different OPRs will be
    required as a function of time. Designate 1-7 for the Time-of-Day Pattern Change Number (TDC NO.)
    to which this OPR is assigned.
    N + DIALING (N = 2-9 P = 0 OR 1, X = 0-9)
    CALL TYPE
    DIGITS DIALED
    NoteDIGITS 
    NEEDED
    MNDTOLL
    Local Calls 9-NNX-XXXX 9-N 8 0
    Near Distant Calls (1+) 9
    -1-NNX-XXXX 9-1-NN 9 1
    Long Distant Calls 9
    -1-NPA-NXX-XXXX 9-1-NP 12 1
    WITHOUT N + DIALING (N = 2-9 P = 0 OR 1, X = 0-9)
    CALL TYPEDIGITS DIALED
    NoteDIGITS 
    NEEDED MND TOLL
    Local Calls 9-NNX-XXXX 9-NN 8 0
    Long Distant Calls 9
    -NPA-NXX-XXXX 9-1-NP 11 1 
    						
    							NEAX2400 IPX Feature Programming ManualPage 430NDA-24297, Issue 1
    L-5 Least Cost Routing - 3/6-Digit
    Programming (cont’d)
    OPR No.(OPR) - Outgoing Pattern Route. The number referenced in AFRS, consisting of a series of
    routes to be chosen based on number dialed.
    Route Advance Number(RA) - The order in which a route will be selected (0-7). For the above
    example; RA0 = Band 1, RA1 = Band 5, RA2 = DDD.
    Route Advance End Display(E) - The last route in the route advance group is indicated with data“0”.
    All others are indicated with data“1”.
    Route Number(RT) - The physical Route Number to be selected as programmed in ARTD.
    Skip Digits(SKIP) - The digits to be skipped when translating the dialed digits in AFRS. (If ARTD is
    assigned as shown [see CDN 13:AC], always assign“1”, at a minimum, to skip the LCR (S) access
    code.)
    Pattern Number Location(PNL) - If digits are to be added after translating the dialed digits in AFRS,
    assign a PNL (1-15). The digits to be added are programmed to the respective PNLs in the AADC
    command. If no digits are to be added, PNL = 0 should be assigned.
    Overflow Tone(OVFT) - Assign if a tone is wanted for the Last Choice Route. If so, assign data“1”
    for DDD.
    Priority Restriction Class(PRSC) - Refer to PRIORITY RESTRICTION CLASS in the EPN Feature
    and Specification. If this is required, assign PRSC here, using classes 1-15. For all other systems,
    always assign PRSC as data“0”.
    STEP 12:AADC- If additional digits are required, assign the digits of a Pattern Number Location (PNL) here.
    For additional digits totaling 24, use PNL 1-255. For EPN programs, PNL has been expanded to 1-999.
    STEP 13:ASDC- If 6-digit translation is required, whereby both Area and Office codes must be examined, this
    command must be used. If no assignment is made in this command, all NXXs are allowed. After an
    NXX is assigned (either as allowed or denied), all other NXXs will subsequently be denied. The table
    becomes an allow table. Program each office code to be allowed with the EFFECT = 1.
    The number of NXXs to be either allowed or denied will determine the method of programming used.
    For example, if it is determined that only 555 is to be restricted from a Special Common Carrier, it is
    more desirable to allow all NXXs and restrict only this NXX. The method would be as follows:
    To create a deny table assign the following:
    Step a): OFLG: ALL
    EFFECT: 1
    Step a, allows all NXXs, thus making a deny table. Program each office code with the EFFECT = 0.
    Step b): OFLG: INPUT
    OFFICE: 555
    EFFECT: 0 (Step b restricts 555 only)
    Program the kind of route as PFX (Prefix, Foreign Exchange, FX) or as SCC (Special Common
    Carrier).
    Choose TDPTN, Time of Day Pattern. Go to ATCP.
    Choose the OPR number this 6-digit table will serve.
    Choose the RA (Route Advance) Number to specify the route in the OPR.
    When assigning for PFX, each NXX is assigned as the following:*
    EFFECT: 0 = Does not require a prefix
    EFFECT: 1 = Allow, with 1 + dialing
    Note
    EFFECT: 2 = Only for display 
    						
    							NEAX2400 IPX Feature Programming Manual
    NDA-24297, Issue 1Page 431
    Least Cost Routing - 3/6-Digit L-5
    Programming (cont’d)
    When assigning for SCC, each NXX is assigned as the following:
    EFFECT: 0 = Restricted
    EFFECT: 1 = Allowed
    EFFECT: 2 = Not Used
    Note:*WhenPFX, EFFECT = 1 is assigned. Add the required digit in the AADC command. OFFICE is the next
    3 digits after those assigned in AFRS.
    Example: AFRS RT31 = 91214 OPR1
    ASDC checks next 3 digits: 91214 XXX XXXX
    STEP 14:AT C P- A maximum of eight Time-of-Day Pattern changes (0-7) are available, whereby the system
    will refer to different OPR assignments as a function of time. As a result, different routes will be listed
    per OPR and therefore different assignments in ASDC. Assign the following:
    Times Setting
    TO:
    FROM: (In Military Time, and only on the half-hour and hour.)
    PATTERN NUMBER: (0-7).
    ARTI- (Assignment of Trunk Application Data) - Assign“DCAN (CDN: 54) = 1”for each route, that
    may require connection establishment when a call is originated via LCRS with incomplete MND for
    the AMND command.
    FCCS Programming 
    This data setting describes only the additional or replacement commands used to activate FCCS
    services. When used as an FCCS feature, these commands replace the non-network commands (for
    example, AAED is replaced by AAEDN). Note that the data setting for FCCS service varies depending
    on the node.
     Note
    Note:
    When using ASYDL or ASYDN to program an FCCS feature, the basic programming of ASYD is required
    in addition to ASYDL or ASYDN.
    STEP 1:ARTDN - Assign the route class data for all the logical routes and dummy routes for LCR/LCRS.
    6-TCL: 1,7-L/T: 1,8-RLP: 2,9-TQ: 1,13-AC:1
    STEP 2:ANPDL/N - Assign the number of necessary digits for LCR/LCRS access. Usually assign DC=9,
    NND=1.
    STEP 3:ASPAL/N - Assign the LCR/LCRS (Least Cost Routing/Register Sender LCR) access code, Kind of
    Service, SRV=LCR/LCRS. Assign Logical Route Number for Dummy Route associated with this
    access code. Assign Connection Indexes, CI=N, H; Normal (N) and Hooking (H). Assign data“1”for
    second dial tone, parameter (2nd). Assign data“1”to AH parameter if Procedure 2 is used for
    AUTHORIZATION CODE [A-20].
    STEP 4:ARNPL - Assign access code for LCR/LCRS as assigned in ASPAL/N associated with the logical
    routes for each external trunk assigned in ARTD/ARTDN, The LCR/LCRS access code is usually“9”.
    The routes to be assigned will be those routes listed in the various OPRs of the AOPRL/N command.
    Note:These same routes may also be listed in ASPAL/N for SRV=OGC (Outgoing Call). In that case, these routes
    may also be available via direct dial access code. In ARNPL, these access codes are not assigned to
    implement the LCRS service in this command.
    STEP 5:ARSCN - Assign the Route Restriction Class for all the Logical Route Number.
    STEP 6:AFRSL/N - Allocate the Dial Number necessary to determine the OPR used to select the routes.
    Office 
    						
    							NEAX2400 IPX Feature Programming ManualPage 432NDA-24297, Issue 1
    L-5 Least Cost Routing - 3/6-Digit
    FCCS Programming (cont’d)
    STEP 7:AO PRL/N - The AFRSL/N command designates the dialing sequence and the OPR to be selected.
    The AOPRL/N defines the routes and in what order these routes will be selected.
    Assign the following:
    TDPTN No.(TDPTN) - Time of Day Pattern Change. Designate 1-7 if different OPRs will be required
    according to the time. Enter“0”if the OPR, assigned in AFRSL/N, is to be applied.
    OPR No.(OPR) - Outgoing Pattern Route. Enter the OPR number assigned by AFRSL/N in the range
    from 0-4000.
    Route Advance Number(RA) - The order in which a route will be selected (0-7).
    For example; RA0=Band 1, RA1=Band 5, RA2=DDD.
    Route Advance End Display(E) - The last route in the route advance group is indicated with data“0”.
    All others are indicated with data“1”.
    Logical Route Number(LGRT) - The logical route number to be selected as programmed in ARTDN.
    Skip Digits(SKIP) - The number of digits to be skipped from dialed numbers.
    Pattern Number Location(PNL) - If digits are to be added after translating the dialed digits in
    AFRSL/N, assign PNL in the range from 1 to 999. If no digits to be added,“0”should be entered. The
    additional digit data is to be assigned by AADCL/N command.
    Overflow Tone(OVFT) - If tone is wanted for the Last Choice Route, assign data“1”for DDD.
    Priority Restriction Class(PRSC) - The restriction class referred by the AEFR command is required,
    assign PRSC using classes 1-15. If not required, enter data“0”.
    STEP 8:AADCL/N - If additional digits are required, assign the digits of a Pattern Number Location (PNL).
    For additional digits totaling 24, use PNL 1-999.
    STEP 9:ASDCL/N - If 6-digit translation is required, whereby both Area and office codes must be examined,
    this command must be used. If no assignment is made in this command, all NXXs are allowed. After
    an NXX is assigned (either as allowed or denied), all other NXXs will subsequently be denied. The
    table becomes an allow table. Program each office code to be allowed with the EFFECT=1.
    The number of NXXs to be either allowed or denied will determine the method of programming used.
    For example, if it is determined that only 555 is to be restricted from a Special Common Carrier, it is
    more desirable to allow all NXXs and restrict only this NXX. The method would be as follows:
    To create a deny table assign the following:
    Step a): OFLG=ALL
    EFFECT=1
    Step a, allows all NXXs, thus making a deny table. Program each office code with the EFFECT=0.
    Step b): OFLG=INPUT
    OFFICE=555
    EFFECT=0 (Step b restricts 555 only)
    Program the KIND of route as PFX (Prefix, Foreign Exchange, FX) or as Special Common Carrier.
    Choose TDPTN, Time of Day Pattern. Go to ATCP.
    Choose the OPR number this 6-digit table will serve.
    Choose the RA (Route Advancing Order) to specify the route in the OPR.
    When assigning for PFX, each NXX is assigned as the following:
    EFFECT: 0=Not require a prefix
    EFFECT: 1=Allow, with 1+dialing (system adds the 1)
    Note
    EFFECT: 2=Not allowed. 
    						
    							NEAX2400 IPX Feature Programming Manual
    NDA-24297, Issue 1Page 433
    Least Cost Routing - 3/6-Digit L-5
    FCCS Programming (cont’d)
    When assigning for SCC, each NXX is assigned as the following
    EFFECT: 0=Restricted
    EFFECT: 1=Allowed
    EFFECT: 2=Not used
    Note:*WhenPFX, EFFECT = 1 is assigned. Add the required digit in the AADCL/N command. OFFICE is the
    next 3 digits after those assigned in AFRSL/N.
    Example: AFRSL/N RT31 = 91214 OPR1
    ASDCL/N checks next 3 digits: 91214 XXX XXXX
    Office 
    						
    							NEAX2400 IPX Feature Programming ManualPage 434NDA-24297, Issue 1
    L-6 Last Number Called - Single-Line Station
    L-6  Last Number Called - Single-Line Station
    General Description
    When a user originates a station-to-station call or an outgoing trunk call, but the call is not established, this feature
    allows the calling station to recall the same destination by dialing only the special code instead of dialing all the
    digits of the number.
    Operating Procedure
    1. Lift the handset; receive dial tone.
    2. Dial the desired partys number.
    3. The call has not been established.
    4. Busy tone or reorder tone is heard.
    5. Hang up.
    6. Lift the handset; receive dial tone.
    7. Dial the LAST NUMBER CALL access code (maximum 3 digits).
    8. The system will automatically redial the last number dialed from that station.
    Service Conditions
    1. The number of dial digits to which this service is applicable is 18 maximum.
    2. Dialing any digits after going off-hook causes previously stored digits to be erased from memory and the
    new digits to be programmed into memory.
    3. In a STEP CALL, the final combination of digits is stored in memory. For example, dial 201, 201 is busy;
    dial 2, station 202 rings; station 202 is stored in the LAST NUMBER CALLED memory.
    4. In CALL FORWARDING [C-2, 3, 5], CALL PICKUP - GROUP [C-7], and STATION HUNTING [S-7,
    8, 9], the number stored is the number dialed, i.e. the number displayed in the INTERMEDIATE
    STATION NUMBER DISPLAY - D
    term[I-10D].
    5. This feature can be activated when the station accesses STATION-TO-STATION CALLING [S-11] or
    station-to-trunk calling.
    6. SPEED CALLING - SYSTEM [S-3, S-21], or GROUP [S-23] numbers (abbreviated digit codes) can be
    stored in the LAST NUMBER CALLED memory.
    7. An AUTHORIZATION CODE [A-20] will not be stored, and must be entered each time the LAST
    NUMBER CALLED is accessed.
    Interactions
    LAST NUMBER CALLED will operate for both internal and outgoing calls.
    Programming
    STEP 1:ANPD- Reserve a number level for feature access and cancel. Assign Connection Indexes, CI = N, H,
    B; Normal (N), Hooking (H), and Busy (B) (applicable to any feature assigned to this level). Assign
    NND in accordance with a predetermined numbering plan.
    STEP 2:ASPA- Assign an access code to LAST NUMBER CALLED, SID = 44. Assign Connection Status
    Index (CI) for Normal (N) service. 
    						
    							NEAX2400 IPX Feature Programming Manual
    NDA-24297, Issue 1Page 435
    Last Number Called - Single-Line Station L-6
    Programming (cont’d)
    STEP 3:ASFC- Assign the stations to receive the feature LAST NUMBER CALLED a Service Feature Class
    that allows SFI = 44.
    FCCS Programming 
    This data setting describes only the additional or replacement commands used to activate FCCS
    services. When used as an FCCS feature, these commands replace the non-network commands (for
    example, AAED is replaced by AAEDN). Note that the data setting for FCCS service varies depending
    on the node.
    STEP 1:ANPDL- Reserve a number level for feature access and cancel. Assign Connection Indexes, CI = N,
    H, B; Normal (N), Hooking (H), and Busy (B) (applicable to any feature assigned to this level). Assign
    NND in accordance with a predetermined numbering plan.
    STEP 2:ASPAL- Assign an access code to LAST NUMBER CALLED, SID = 44. Assign Connection Status
    Index (CI) for Normal (N) service. 
    						
    							NEAX2400 IPX Feature Programming ManualPage 436NDA-24297, Issue 1
    L-6D Last Number Called - Dterm
    L-6D  Last Number Called - Dterm
    General Description
    This feature allows the user of a Dtermto store the last five numbers dialed, and to redial the numbers by pressing
    the REDIAL key. The Dtermuser can choose any destination out of the last 5 calls that have been stored in memory,
    thus enabling the user to place a call without redialing the full number.
    Operating Procedure
    How to check the dialed numbers stored in the memory (up to 5 destinations)
    1. Press the REDIAL key on a Dterm.
    a.) The Prime Line lights green.
    b.) The Speaker Lamp lights green.
    c.) Receive dial tone from the speaker with the following display on the D
    term.
    2. Press the REDIAL key on the D
    termagain.
    a.) The Prime Line lights green.
    b.) The Speaker Lamp lights green.
    c.) Receive dial tone from the speaker with the following display on the D
    term.
    Note:The indication is changed in sequence by pressing the REDIAL key. Once the stored telephone number
    display reaches LNR[#]/SPEED[]-5, LNR[#]/SPEED[]-1 appears again by pressing REDIAL.
    How to originate a call
    3. Press the REDIAL key on a Dterm.
    a.) The Prime Line lights green.
    b.) The Speaker Lamp lights green.
    c.) Receive dial tone from the speaker with the following display on the D
    term.
    4. Repeat the above procedure until you reach your desired destination.
    5. Press“#”to originate your call while the desired destination is being displayed on the D
    term.
    a.) The Prime Line lights green.
    b.) The Speaker Lamp lights green.
    c.) Receive ringback tone from the speaker with the following display on the D
    term.
    LNR [*] / SPD [_ _ _] - 1
    811625643
    MIC         FDB                   FDN                >>>
    LNR [*] / SPD [_ _ _] - 2
    25191
    MIC         FDB                   FDN                >>>
    LNR [*] / SPD [_ _ _] - 1
    811625643
    MIC         FDB                   FDN                >>>
    LNR [*] / SPD [_ _ _] - 4
      82625191
    MIC         FDB                   FDN                >>>
                      82625191
              10:24   AM   FRI   15  
    						
    							NEAX2400 IPX Feature Programming Manual
    NDA-24297, Issue 1Page 437
    Last Number Called - DtermL-6D
    Operating Procedure (cont’d)
    6. The called party answers the call.
    a.) The Prime Line lights green.
    b.) The Speaker Lamp is OFF.
    Service Conditions
    1. A maximum of 5 destinations can be stored.
    2. The maximum digits of the destination is 32 digits.
    3. When a feature key has been assigned as Last Number Called, the feature key also works as REDIAL key.
    4. This feature is also effective when the calling party presses the REDIAL key while the SPEAKER key is
    being pressed.
    5. When the REDIAL key is pressed, # or the REDIAL key must be pressed within 12 seconds. Otherwise,
    the calling party hears reorder tone.
    6. The calling party can enter abbreviated codes after pressing the REDIAL key.
    7. Any number entry (other than #) from a D
    termafter pressing the REDIAL key is recognized as abbreviated
    code(s) (1 or 2 digits) of SPEED CALLING-STATION.
    8. A D
    termcan display the upper 16 digits among the stored 32 digits.
    9. When any destination has not been stored in the system, which occurs after initialization of the circuit card,
    the D
    termdisplays no destination as shown below.
    10. When a D
    termuser dials the same destination that has already been stored in the system, the newly dialed
    destination is stored in the following manner:
    11. The number dialed during the call can be stored as the LAST NUMBER CALL - stock redial with a
    maximum of 32 digits.
                      82625191
              10:24   AM   FRI   15 
    LNR [*] / SPD [_ _ _] - 1
    MIC  FDB  FDN      >>>
    blank
    No. 25000
    Newly Dialed Numbers Stack #1
    Stack #2
    Stack #3
    Stack #4
    Stack #5
    No. 82625191
    No. 40001
    No. 982111
    No. 25000
    No. 303
    Removed
    Stack Memory
    Previously Stored DestinationsNewly Stored
    Stack #1
    Stack #2
    Stack #3
    Stack #4
    Stack #5
    No. 25000
    No. 82625191
    No. 40001
    No. 9821111
    No. 303
    Stack Memory
    Newly Stored Destinations 
    						
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