Form 8-K
8-K — FingerMotion, Inc.
Accession: 0001520138-26-000223
Filed: 2026-06-09
Period: 2026-06-09
CIK: 0001602409
SIC: 7372 (SERVICES-PREPACKAGED SOFTWARE)
Item: Regulation FD Disclosure
Item: Financial Statements and Exhibits
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UNITED STATES
SECURITIES AND EXCHANGE COMMISSION
Washington, D.C. 20549
FORM 8-K
CURRENT REPORT
Pursuant to Section 13 or 15(d) of the Securities Exchange Act of 1934
June 9, 2026
Date of Report (Date of earliest event reported)
FINGERMOTION, INC.
(Exact name of registrant as specified in its charter)
Delaware
001-41187
46-4600326
(State or other jurisdiction of incorporation)
(Commission File Number)
(IRS Employer Identification No.)
111 Somerset Road, Level 3
Singapore
238164
(Address of principal executive offices)
(Zip Code)
(347) 349-5339
Registrant’s telephone number, including area code
Not applicable.
(Former name or former address, if changed since last report)
Check the appropriate box below if the Form 8-K is
intended to simultaneously satisfy the filing obligation of the registrant under any of the following provisions:
[ ]
Written communications pursuant to Rule 425 under the Securities Act (17 CFR 230.425)
[ ]
Soliciting material pursuant to Rule 14a-12 under the Exchange Act (17 CFR 240.14a-12)
[ ]
Pre-commencement communications pursuant to Rule 14d-2(b) under the Exchange Act (17 CFR 240.14d-2(b))
[ ]
Pre-commencement communications pursuant to Rule 13e-4(c) under the Exchange Act (17 CFR 240.13e-4(c))
Securities registered pursuant to Section 12(b) of
the Act:
Title of each class
Trading Symbol (s)
Name of each exchange on which registered
Common Stock
FNGR
The Nasdaq Stock Market LLC
Indicate by check mark whether the registrant is an
emerging growth company as defined in as defined in Rule 405 of the Securities Act of 1933 (Section 230.405 of this chapter) or Rule 12b-2
of the Securities Exchange Act of 1934 (Section 240.12b-2 of this chapter).
Emerging growth
company ¨
If an emerging growth company, indicate by check mark
if the registrant has elected not to use the extended transition period for complying with any new or revised financial accounting standards
provided pursuant to Section 13(a) of the Exchange Act. ¨
SECTION 7 – REGULATION
FD
Item 7.01 Regulation FD Disclosure
On June 9, 2026, FingerMotion, Inc. (the “Company”
or “FingerMotion”) issued a news release to announce that it has entered into a Memorandum of Understanding (the “MOU”)
with BlueFlare Energy Solutions Inc. (“BlueFlare”), an Alberta-based developer, engineer and constructor of behind-the-meter
(“BTM”) energy and high-performance compute infrastructure, to jointly develop a distributed network of micro-scale
edge AI inference compute sites across Western Canada. In conjunction with the MOU, the Company and BlueFlare will also consider a non-binding
Commercial Term Sheet (the “LOI”), with the first behind-the-meter project to be advanced under the collaboration,
a site located in Alberta, Canada and designated PR1 (the “PR1 Project”). The draft non-binding LOI reflects the parties’
agreement to proceed and has not been executed.
A Distributed Edge AI Inference Network for Western
Canada
The MOU establishes BlueFlare as FingerMotion’s
exclusive partner within the Canadian provinces of Alberta, British Columbia and Saskatchewan for the origination, design, engineering,
construction and ongoing support of co-located AI inference compute sites and bitcoin mining sites. The collaboration is built around
BlueFlare’s “From Wellhead to Workload” platform and its proprietary BALA™ (BlueFlare Adaptive Load Architecture™)
load-following technology.
FingerMotion intends to use the collaboration to build
a distributed network of micro-scale edge AI inference compute sites, each typically in the 0.5 megawatt (“MW”) to 2 MW range,
sited directly behind the meter at producing or recently-producing natural gas fields in Western Canada. The Company believes that, compared
to centralized hyperscale data centers, a distributed edge compute model may offer differentiated advantages across the following dimensions:
• Energy economics. Direct, BTM access to low-cost on-site natural
gas, with electricity generated and consumed without traversing the transmission grid.
• Latency. Geographic proximity to regional users and devices, which
is particularly relevant for AI inference workloads compared to bulk AI training.
• Speed of deployment. Standardized, containerized infrastructure designed
for rapid build-out, in contrast to the multi-year build cycles typical of large-scale data centers.
• Capital efficiency. Modular site economics that the Company believes
can be financed and replicated incrementally across the network.
• Resilience. A distributed footprint that is intended to reduce single-site
concentration risk relative to centralized facilities.
The Role of BlueFlare’s BALA™ Platform
BALA™ (BlueFlare Adaptive Load Architecture™)
is BlueFlare’s proprietary load-following platform. It is designed to dynamically balance, at each site and in real time, AI inference
compute workloads with co-located bitcoin mining loads, with the bitcoin mining load functioning as a load-balancing and gas-continuity
mechanism rather than a primary use case.
At a network level, BALA™ is designed to allow
each site to:
• absorb available natural gas generation capacity at all times by flexing
the bitcoin mining load up or down as inference compute demand varies;
• maintain steady operating temperatures and gas burn profiles regardless
of compute load, supporting equipment longevity and emissions performance; and
• preserve the economic case for the site even during periods of lower inference
demand, by continuing to convert generated electricity into bitcoin mining revenue.
FingerMotion believes that BALA™ is a
key differentiator of the proposed network, as it is designed to make small-scale, distributed edge compute sites economically viable
in a manner that traditional standalone designs have struggled to achieve.
PR1 — First Project Under the Collaboration
FingerMotion will look at the existing behind-the-meter
Bitcoin mining infrastructure and mining hardware at the PR1 site, together with ongoing host-operated energy and operational services
to be provided by BlueFlare, subject to satisfactory due diligence, the negotiation and execution of definitive agreements, and other
customary closing conditions. Thus, the proposed scope of the LOI will include:
• Bitcoin Mining Infrastructure. A 1.0 MW air-cooled Bitcoin mining
container (manufactured by TNDS), including container-level electrical distribution, busbar and power distribution, cooling, ventilation
and environmental control systems.
• Mining Hardware. 120 active Bitmain Antminer S21 Pro 234T ASICs (supplied
with a 5% dead-on-arrival buffer of 6 additional units, for 126 units delivered in total), representing aggregate nameplate hashrate of
approximately 28.08 PH/s, intended to operate as the BALA™-managed load-balancing layer for the site.
• Behind-the-Meter Power Supply. BlueFlare to retain ownership of the
on-site natural gas generation equipment and to deliver electricity behind-the-meter to the Company’s hardware. The generation equipment
is retained by BlueFlare and would not form part of any acquisition.
• Host-Operated Services. Energy supply, power-generation operations
and maintenance, and 24/7 network operations centre (NOC) monitoring, provided by BlueFlare on a host-operated basis at a fixed, all-in
rate of US$0.03 per kWh delivered for an initial three-year term, with a 3% annual escalation thereafter.
• First Inference Compute Build. Subsequent construction by BlueFlare
of a 500 kW containerized AI inference compute data center adjacent to the existing infrastructure, which is intended to be the Company’s
first operational edge AI inference site under the collaboration.
BlueFlare is expected to act as the developer, designer,
engineer and construction partner for the inference compute build and the broader site integration, including the deployment of BALA™
across the natural gas generation, mining and inference compute layers.
Network Build-Out Strategy
PR1 is intended to serve as the prototype site for
a broader rollout of distributed edge compute infrastructure across Alberta, British Columbia and Saskatchewan. Additional initial project
sites currently under evaluation by the parties include two sites which are expected to be advanced under a separate Commercial Term Sheet
and associated definitive agreement(s). The pace and scale of the network build-out will depend on a number of factors, including the
successful completion of the PR1 Project, capital availability, site origination, regulatory approvals, and other customary considerations.
“This collaboration represents an important
milestone in our strategy to establish a scalable presence in the rapidly growing AI inference infrastructure market,” said Martin
Shen, CEO of FingerMotion. “By collaborating with BlueFlare, we gain access to a highly differentiated platform that combines low-cost
behind-the-meter energy, modular compute deployment, and proprietary load-balancing technology designed to maximize asset utilization.
If successfully executed, this approach has the potential to accelerate our entry into the edge AI sector, improve capital efficiency,
create new revenue opportunities, and enhance long-term shareholder value through exposure to one of the most dynamic segments of the
digital infrastructure market.”
“Western Canada offers a rare combination of
low-cost natural gas, mature energy infrastructure and a regulatory framework that supports BTM compute at scale,” said Landon Ruszkowski,
Chief Executive Officer of BlueFlare Energy Solutions Inc. “Our ‘From Wellhead to Workload’ platform is purpose-built
for exactly this kind of distributed deployment, and BALA™ is what makes the per-site economics work. We are pleased to be working
with FingerMotion as it plans to enter the Canadian edge compute market, and we believe the PR1 Project will demonstrate the model that
the broader network is intended to scale.”
Important Information Regarding the MOU and LOI
The MOU and the anticipated LOI are non-binding (other
than certain customary provisions of the MOU, including those relating to exclusivity, confidentiality, public disclosure, governing law
and general provisions). Neither the MOU nor the LOI obligates either party to enter into any definitive agreement. The closing of the
PR1 Project and any other transaction described in this press release is subject to, among other things, the negotiation and execution
of definitive agreements, the completion of satisfactory due diligence, the receipt of any applicable regulatory or third-party approvals,
and the satisfaction of other customary closing conditions. There can be no assurance that any such definitive agreement will be reached,
that the PR1 Project or any other project described herein will be completed on the terms described or at all, or that the broader network
build-out contemplated herein will proceed as currently anticipated.
A copy of the news release is attached as Exhibit
99.1 hereto.
The information contained
in this Item 7.01 of this Current Report on Form 8-K, including Exhibit 99.1, is being furnished and shall not be deemed “filed”
for purposes of Section 18 of the Securities Exchange Act of 1934, as amended (the “Exchange Act”), or otherwise subject
to the liabilities of that section, nor shall it be deemed incorporated by reference in any filing under the Securities Act of 1933,
as amended, or the Exchange Act, except as expressly set forth by specific reference in such filing.
SECTION 9 – FINANCIAL STATEMENTS AND EXHIBITS
Item 9.01 Financial Statements and Exhibits
(d) Exhibits
Exhibit
Description
99.1
News Release dated June 9, 2026
104
Cover Page Interactive Data File (the cover page XBRL tags are embedded within the inline XBRL document)
SIGNATURES
Pursuant to the requirements of the Securities
Exchange Act of 1934, the registrant has duly caused this report to be signed on its behalf by the undersigned hereunto duly authorized.
FINGERMOTION, INC.
DATE: June 9, 2026
By: /s/ Martin J. Shen
Martin J. Shen
CEO and Director
EX-99
EX-99
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FingerMotion Enters Edge AI Inference Compute
Market Through Strategic MOU with BlueFlare Energy Solutions; Plans to Proceed with First Behind-the-Meter Site (PR1) in Alberta Under
Non-Binding Commercial Term Sheet
Initial project to anchor a proposed distributed network of small-scale
edge compute sites across Western Canada, orchestrated by BlueFlare’s proprietary BALA™ (BlueFlare Adaptive Load Architecture™)
load-following platform
SINGAPORE / Newsfile Corp. / June 9, 2026
– FingerMotion, Inc. (NASDAQ: FNGR) (“FingerMotion” or the “Company”), a mobile services,
data and technology company today announced that it has entered into a Memorandum of Understanding (the “MOU”) with
BlueFlare Energy Solutions Inc. (“BlueFlare”), an Alberta-based developer, engineer and constructor of behind-the-meter
(“BTM”) energy and high-performance compute infrastructure, to jointly develop a distributed network of micro-scale
edge AI inference compute sites across Western Canada. In conjunction with the MOU, the Company and BlueFlare will also consider a non-binding
Commercial Term Sheet (the “LOI”), with the first behind-the-meter project to be advanced under the collaboration,
a site located in Alberta, Canada and designated PR1 (the “PR1 Project”). The draft non-binding LOI reflects the parties’
agreement to proceed and has not been executed.
A Distributed Edge AI Inference Network for Western Canada
The MOU establishes BlueFlare as FingerMotion’s
exclusive partner within the Canadian provinces of Alberta, British Columbia and Saskatchewan for the origination, design, engineering,
construction and ongoing support of co-located AI inference compute sites and bitcoin mining sites. The collaboration is built around
BlueFlare’s “From Wellhead to Workload” platform and its proprietary BALA™ (BlueFlare Adaptive Load Architecture™)
load-following technology.
FingerMotion intends to use the collaboration
to build a distributed network of micro-scale edge AI inference compute sites, each typically in the 0.5 megawatt (“MW”) to
2 MW range, sited directly behind the meter at producing or recently-producing natural gas fields in Western Canada. The Company believes
that, compared to centralized hyperscale data centers, a distributed edge compute model may offer differentiated advantages across the
following dimensions:
• Energy economics. Direct, BTM access to low-cost on-site natural
gas, with electricity generated and consumed without traversing the transmission grid.
• Latency. Geographic proximity to regional users and devices, which
is particularly relevant for AI inference workloads compared to bulk AI training.
• Speed of deployment. Standardized, containerized infrastructure designed
for rapid build-out, in contrast to the multi-year build cycles typical of large-scale data centers.
• Capital efficiency. Modular site economics that the Company believes
can be financed and replicated incrementally across the network.
• Resilience. A distributed footprint that is intended to reduce single-site
concentration risk relative to centralized facilities.
The Role of BlueFlare’s BALA™ Platform
BALA™ (BlueFlare Adaptive Load Architecture™)
is BlueFlare’s proprietary load-following platform. It is designed to dynamically balance, at each site and in real time, AI inference
compute workloads with co-located bitcoin mining loads, with the bitcoin mining load functioning as a load-balancing and gas-continuity
mechanism rather than a primary use case.
At a network level, BALA™ is designed
to allow each site to:
• absorb available natural gas generation capacity at all times by flexing
the bitcoin mining load up or down as inference compute demand varies;
• maintain steady operating temperatures and gas burn profiles regardless
of compute load, supporting equipment longevity and emissions performance; and
• preserve the economic case for the site even during periods of lower inference
demand, by continuing to convert generated electricity into bitcoin mining revenue.
FingerMotion believes that BALA™ is
a key differentiator of the proposed network, as it is designed to make small-scale, distributed edge compute sites economically viable
in a manner that traditional standalone designs have struggled to achieve.
PR1 — First Project Under the Collaboration
FingerMotion will look at the existing behind-the-meter
Bitcoin mining infrastructure and mining hardware at the PR1 site, together with ongoing host-operated energy and operational services
to be provided by BlueFlare, subject to satisfactory due diligence, the negotiation and execution of definitive agreements, and other
customary closing conditions. Thus, the proposed scope of the LOI will include:
• Bitcoin Mining Infrastructure. A 1.0 MW air-cooled Bitcoin mining
container (manufactured by TNDS), including container-level electrical distribution, busbar and power distribution, cooling, ventilation
and environmental control systems.
• Mining Hardware. 120 active Bitmain Antminer S21 Pro 234T ASICs (supplied
with a 5% dead-on-arrival buffer of 6 additional units, for 126 units delivered in total), representing aggregate nameplate hashrate of
approximately 28.08 PH/s, intended to operate as the BALA™-managed load-balancing layer for the site.
• Behind-the-Meter Power Supply. BlueFlare to retain ownership of the
on-site natural gas generation equipment and to deliver electricity behind-the-meter to the Company’s hardware. The generation equipment
is retained by BlueFlare and would not form part of any acquisition.
• Host-Operated Services. Energy supply, power-generation operations
and maintenance, and 24/7 network operations centre (NOC) monitoring, provided by BlueFlare on a host-operated basis at a fixed, all-in
rate of US$0.03 per kWh delivered for an initial three-year term, with a 3% annual escalation thereafter.
• First Inference Compute Build. Subsequent construction by BlueFlare
of a 500 kW containerized AI inference compute data center adjacent to the existing infrastructure, which is intended to be the Company’s
first operational edge AI inference site under the collaboration.
BlueFlare is expected to act as the developer,
designer, engineer and construction partner for the inference compute build and the broader site integration, including the deployment
of BALA™ across the natural gas generation, mining and inference compute layers.
Network Build-Out Strategy
PR1 is intended to serve as the prototype
site for a broader rollout of distributed edge compute infrastructure across Alberta, British Columbia and Saskatchewan. Additional initial
project sites currently under evaluation by the parties include two sites which are expected to be advanced under a separate Commercial
Term Sheet and associated definitive agreement(s). The pace and scale of the network build-out will depend on a number of factors, including
the successful completion of the PR1 Project, capital availability, site origination, regulatory approvals, and other customary considerations.
“This collaboration represents an important
milestone in our strategy to establish a scalable presence in the rapidly growing AI inference infrastructure market,” said Martin
Shen, CEO of FingerMotion. “By collaborating with BlueFlare, we gain access to a highly differentiated platform that combines low-cost
behind-the-meter energy, modular compute deployment, and proprietary load-balancing technology designed to maximize asset utilization.
If successfully executed, this approach has the potential to accelerate our entry into the edge AI sector, improve capital efficiency,
create new revenue opportunities, and enhance long-term shareholder value through exposure to one of the most dynamic segments of the
digital infrastructure market.”
“Western Canada offers a rare combination
of low-cost natural gas, mature energy infrastructure and a regulatory framework that supports BTM compute at scale,” said Landon
Ruszkowski, Chief Executive Officer of BlueFlare Energy Solutions Inc. “Our ‘From Wellhead to Workload’ platform is
purpose-built for exactly this kind of distributed deployment, and BALA™ is what makes the per-site economics work. We are pleased
to be working with FingerMotion as it plans to enter the Canadian edge compute market, and we believe the PR1 Project will demonstrate
the model that the broader network is intended to scale.”
Important Information Regarding the MOU and LOI
The MOU and the anticipated LOI are non-binding
(other than certain customary provisions of the MOU, including those relating to exclusivity, confidentiality, public disclosure, governing
law and general provisions). Neither the MOU nor the LOI obligates either party to enter into any definitive agreement. The closing of
the PR1 Project and any other transaction described in this press release is subject to, among other things, the negotiation and execution
of definitive agreements, the completion of satisfactory due diligence, the receipt of any applicable regulatory or third-party
approvals, and the satisfaction of other
customary closing conditions. There can be no assurance that any such definitive agreement will be reached, that the PR1 Project or any
other project described herein will be completed on the terms described or at all, or that the broader network build-out contemplated
herein will proceed as currently anticipated.
About FingerMotion, Inc.
FingerMotion is an evolving technology company with
a core competency in mobile payment and recharge platform solutions in China. As the user base of its primary business continues to grow,
the Company is developing additional value-added technologies to market to its users. The vision of the Company is to rapidly grow the
user base through organic means and have this growth develop into an ecosystem of users with high engagement rates utilizing its innovative
applications. Developing a highly engaged ecosystem of users would strategically position the Company to onboard larger customer bases.
FingerMotion eventually hopes to serve over 1 billion users in the China market and eventually expand the model to other regional markets.
For more information on FingerMotion, visit: https://fingermotion.com
About BlueFlare Energy Solutions Inc.
BlueFlare Energy Solutions Inc. is an Alberta-incorporated
developer, engineer and constructor of behind-the-meter energy and high-performance compute infrastructure operating under the “From
Wellhead to Workload” platform. BlueFlare originates, designs, builds and supports co-located natural gas generation, AI inference
compute and bitcoin mining sites across Western Canada, integrated by its proprietary BALA™ (BlueFlare Adaptive Load Architecture™)
load-following platform. BlueFlare is a subsidiary of BlueFlare Group Holdings Inc.
Safe Harbor Statement
Except for the statements of historical fact contained
herein, the information presented in this news release constitutes "forward-looking statements" as such term is used in applicable
United States securities laws. These statements relate to analysis and other information that are based on forecasts or future results,
estimates of amounts not yet determinable and assumptions of management. Any other statements that express or involve discussions with
respect to predictions, expectations, beliefs, plans, projections, objectives, assumptions or future events or performance (often, but
not always, using words or phrases such as "expects", or "does not expect", "is expected", "anticipates"
or "does not anticipate", "plans", "estimates" or "intends", or stating that certain actions,
events or results "may", "could", "would", "might" or "will" be taken, occur or be
achieved) are not statements of historical fact and should be viewed as "forward-looking statements". We have based these forward-looking
statements on our current expectations about future events or performance. While we believe these expectations are reasonable, such forward-looking
statements are inherently subject to risks and uncertainties, many of which are beyond our control. Our actual future results may differ
materially from those discussed or implied in our forward-looking statements for various reasons. Factors that could contribute to such
differences include, but are not limited to: international, national and local general economic and market conditions; demographic changes;
the ability of the Company to sustain, manage or forecast its growth; the ability of the Company to manage its VIE contracts; the ability
of the Company to maintain its relationships and licenses in China; adverse publicity; competition and changes in the Chinese telecommunications
market; fluctuations and difficulty in forecasting operating results; business disruptions, such as technological failures and/or cybersecurity
breaches; and the other factors discussed in the Company's periodic reports that are filed with the Securities and Exchange Commission
and available on its website (http://www.sec.gov). There can
be no assurance that such statements will prove to be accurate as actual results and future events could differ materially from those
anticipated in such statements. Accordingly, readers should not place undue reliance on forward-looking statements contained in this
news release and in any document referred to in this news release. The forward-looking statements included in this release are made only
as of the date hereof. For forward-looking statements in this news release, the Company claims the protection of the safe harbor for
forward-looking statements contained in the Private Securities Litigation Report Act of 1995. The Company assumes no obligation to update
or supplement any forward-looking statements whether as a result of new information, future events or otherwise. This news release shall
not constitute an offer to sell or the solicitation of any offer to buy the Company's securities.
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+ References
Reference 1: http://www.xbrl.org/2003/role/presentationRef
-Publisher SEC
-Name Exchange Act
-Number 240
-Section 12
-Subsection b-2
+ Details
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dei_EntityTaxIdentificationNumber
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- Definition
Local phone number for entity.
+ References
No definition available.
+ Details
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dei_LocalPhoneNumber
Namespace Prefix:
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- Definition
Boolean flag that is true when the Form 8-K filing is intended to satisfy the filing obligation of the registrant as pre-commencement communications pursuant to Rule 13e-4(c) under the Exchange Act.
+ References
Reference 1: http://www.xbrl.org/2003/role/presentationRef
-Publisher SEC
-Name Exchange Act
-Number 240
-Section 13e
-Subsection 4c
+ Details
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Namespace Prefix:
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- Definition
Boolean flag that is true when the Form 8-K filing is intended to satisfy the filing obligation of the registrant as pre-commencement communications pursuant to Rule 14d-2(b) under the Exchange Act.
+ References
Reference 1: http://www.xbrl.org/2003/role/presentationRef
-Publisher SEC
-Name Exchange Act
-Number 240
-Section 14d
-Subsection 2b
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- Definition
Title of a 12(b) registered security.
+ References
Reference 1: http://www.xbrl.org/2003/role/presentationRef
-Publisher SEC
-Name Exchange Act
-Number 240
-Section 12
-Subsection b
+ Details
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Namespace Prefix:
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Data Type:
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Balance Type:
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Period Type:
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X
- Definition
Name of the Exchange on which a security is registered.
+ References
Reference 1: http://www.xbrl.org/2003/role/presentationRef
-Publisher SEC
-Name Exchange Act
-Number 240
-Section 12
-Subsection d1-1
+ Details
Name:
dei_SecurityExchangeName
Namespace Prefix:
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Data Type:
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Balance Type:
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Period Type:
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- Definition
Boolean flag that is true when the Form 8-K filing is intended to satisfy the filing obligation of the registrant as soliciting material pursuant to Rule 14a-12 under the Exchange Act.
+ References
Reference 1: http://www.xbrl.org/2003/role/presentationRef
-Publisher SEC
-Name Exchange Act
-Number 240
-Section 14a
-Subsection 12
+ Details
Name:
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Data Type:
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Balance Type:
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- Definition
Trading symbol of an instrument as listed on an exchange.
+ References
No definition available.
+ Details
Name:
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Namespace Prefix:
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Data Type:
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Balance Type:
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- Definition
Boolean flag that is true when the Form 8-K filing is intended to satisfy the filing obligation of the registrant as written communications pursuant to Rule 425 under the Securities Act.
+ References
Reference 1: http://www.xbrl.org/2003/role/presentationRef
-Publisher SEC
-Name Securities Act
-Number 230
-Section 425
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