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e-ISSN: 2582-5208
International Research Journal of Modernization in Engineering Technology and Science
( Peer-Reviewed, Open Access, Fully Refereed International Journal )
Volume:05/Issue:11/November-2023 Impact Factor- 7.868 www.irjmets.com
www.irjmets.com @International Research Journal of Modernization in Engineering, Technology and Science
[1389]
CLOUD-BASED BUSINESS CONTINUITY AND DISASTER RECOVERY
STRATEGIES
Sumanth Tatineni*1
*1Devops Engineer @Idexcel Inc., Chicago, IL.
DOI : https://www.doi.org/10.56726/IRJMETS46236
ABSTRACT
Cloud-based disaster recovery has become one of the essential strategies for ensuring data protection and
business continuity in the face of unforeseen disasters and disruptions. It is necessary to examine the increased
significance of planning and implementing cloud-based disaster recovery solutions to safeguard crucial data
and applications. In that case, this paper examines the importance of cloud-based business continuity and
disaster recovery strategies. It delves into the critical elements of an effective DR plan, including extensive risk
assessment, data backup, duplication, failover procedures, and the essential parameters of recovery time
objectives (RTO) and recovery point objectives (RPOs). The paper highlights the benefits of breeding cloud
services for disaster recovery, from efficiency to scalability. Additionally, the paper addresses potential
challenges and considerations in adopting cloud-based DR, stressing data security and compliance concerns.
Through this in-depth research, organizations can get insights into the best practices for cloud disaster
recovery, empowering them to develop strong and resilient business continuity strategies in an increasingly
unpredictable digital world.
Keywords: Cloud-Based BCDR, Data Backup, Cloud Technologies, Data Recovery Planning, Data Security, Risk
Assessment, Recovery Time Objectives (RTO), Recovery Point Objectives (Rpos), Cloud Infrastructure, Data
Protection, Business Continuity, Compliance.
I. INTRODUCTION
In today's ever-changing business scope, where digital data and services are the core of operations, the
potential effect of unexpected disruptions is enormous. From the threat of hardware failures and natural
disasters to the constant issue of cyber-attacks, organizations on all sides face huge risks that can disrupt their
operations and compromise the data. These interruptions can result in costly consequences, including idle
workforces, lost revenue, and catastrophic financial losses. As the world continues to be increasingly
interconnected and reliant on data, the importance of disaster recovery (DR) strategies cannot be more
stressed [1].
Traditionally, DR often incorporated the maintenance of dedicated on-premises infrastructure, a solution that
could be complex and expensive to manage. Nonetheless, cloud disaster recovery has changed the situation in
recent years. It provides organizations with a more scalable and efficient approach to ensure data protection
and business continuity, making it an important strategy in the modern business landscape [2]. This paper
delves into analyzing the important role of planning and implementing cloud-based disaster recovery solutions
[3]. Organizations gain access to cost-effective and flexible infrastructures by adopting cloud service
capabilities. This infrastructure significantly improves the effectiveness and efficiency of disaster recovery
efforts, thus reducing the downtime and data loss risk [4].
The basis of an effective cloud disaster recovery plan incorporates conducting comprehensive risk assessments
to identify potential vulnerabilities and threats [5], implementing data replication and backup mechanisms to
ensure data availability, thus establishing failover procedures to allow a seamless recovery and defining
recovery time objectives (RTOs) and recovery point objectives (RPOs) to curate recovery goals. While cloud
disaster offers various benefits for organizations, this analysis will address the potential considerations and
challenges, mainly data security and compliance [7]. Entrusting sensitive data to third-party cloud providers
requires careful assessment of their security measures and adherence to regulatory standards to ensure data
compliance and privacy. Despite adopting the best disaster recovery systems, recovery can still take time, and
every downtime carries enormous losses.
e-ISSN: 2582-5208
International Research Journal of Modernization in Engineering Technology and Science
( Peer-Reviewed, Open Access, Fully Refereed International Journal )
Volume:05/Issue:11/November-2023 Impact Factor- 7.868 www.irjmets.com
www.irjmets.com @International Research Journal of Modernization in Engineering, Technology and Science
[1390]
1. What do business continuity and disaster recovery entail?
In the ever-evolving and fast-paced modern business landscape, the role of a Chief Information Officer is
important in creating and maintaining strong and dependable IT systems. This system is not just the main
aspect of organizations but also carries the resilience to deal with challenges, adapt to changes, and facilitate
the organization's strategic goals. Business Continuity and Disaster Recovery (BCDR) planning encompasses a
comprehensive framework of policies [7], strategies, and procedures curated to empower organizations to
effectively respond, adapt to changing situations, maintain operational continuity, and accelerate recovery
when faced with the unexpected.
Mainly, business continuity ensures the uninterrupted flow of daily operations, even in the face of adversity. At
the same time, disaster recovery deals with quickly restoring systems and technology following a disruption
[8]. Both ensure an organization's resiliency, allowing it to withstand different challenges. These incorporate
various aspects, from technical glitches, power outages, and natural disasters to supply chain disruptions. For
this reason, BCDR is essential in its ability to mitigate the impact of disruptions and outages on business
operations. These practices help bolster data loss, reputational damage, and operational downtimes while also
trying to minimize the occurrence of emergencies through proactive preparedness and planning [9].
Successfully adopting and implementing a comprehensive BCDR strategy requires proper preparation and
planning.
BCDR professionals help organizations formulate a resilient strategy. This process incorporates conducting a
business impact analysis (BIA) and in-depth risk assessment, crafting and testing BCDR plans, and providing
necessary training to ensure the organization is well-prepared to face adversity [10]. An effective BCDR
strategy has documents that serve multiple purposes, assisting in resource management and providing
important information such as emergency procedures, employee contacts, vendor lists, equipment inventories,
and test instructions [11]. Additionally, they embody technical diagrams of networks and systems to ensure
that organizations have a readily accessible and comprehensive blueprint for resilience in case of unexpected
disruptions.
1.1. Business Continuity and Disaster Recovery Interaction
In safeguarding business operations, business continuity planning and disaster recovery policies work as
symbiotic partners to ensure a business's seamless and safest functionality. Business continuity services are the
defender of an organization's ability to continue important functions like productivity and customer
communication [12], even when unforeseen challenges strike. These services remain important mainly when
disaster comes.
When adversity rears its head, disaster recovery, and business continuity are the changing partners that
address the technical aspects, particularly concerning data and computers. Disaster recovery quickly goes into
action to restore normalcy. These two plans depend on each other as business continuity depends on
supporting a disaster recovery policy to keep everything on board [13]. Meanwhile, disaster recovery
complements the business continuity strategy by rapidly rectifying technical issues. Together, these plans
create a shield that is not easy to penetrate, thus allowing businesses to operate efficiently and facilitating a
speedy recovery in the event of unforeseen challenges [14].
1.2. The difference between business continuity and disaster recovery
The primary objective of BC is to ensure that an organization's mission-critical functions can not only ensure
but thrive during and after the disaster happens and is characterized by long-term planning that delves into
persistent challenges to an organization's overall success [15]. On the other hand, the DR objective is composed
of specific measures an organization must take to restore its operations after a disaster. The DR activities
timeline begins post-incident, and the response times can span seconds to days. Unlike BC, DR is mainly
centered on an organization's technology infrastructure, focusing on promptly retrieving data following an
incident [16].
While BC majorly concentrates on the broader organizational context, incorporating holistic planning and risk
management to sustain operations during a disaster, DR mainly revolves around technology recovery and data
accessibility post-disaster. It's important to recognize that DR is an important part of the larger BC planning
process [17]. But despite these differences, the main goal is to expedite the resumption of business activities as
e-ISSN: 2582-5208
International Research Journal of Modernization in Engineering Technology and Science
( Peer-Reviewed, Open Access, Fully Refereed International Journal )
Volume:05/Issue:11/November-2023 Impact Factor- 7.868 www.irjmets.com
www.irjmets.com @International Research Journal of Modernization in Engineering, Technology and Science
[1391]
closely to normal as possible, especially concerning mission-critical applications. In most instances, the same
team is part of both BC and DR, reinforcing the synergy between these vital aspects of organizational resilience.
II. CLOUD DISASTER RECOVERY IN MODERN BUSINESS
Businesses have increasingly adopted cloud platforms to improve their computing efficiency and agility, a trend
that has garnered momentum from 2020. This surge in embracing the cloud has changed the conventional
approach to disaster recovery. About 70% of organizations have curated plans to augment their cloud
expenditures, reflecting the huge shift in how the world perceives disaster recovery [18]. At the same time,
cloud computing depicts an efficient means of managing digital assets. It remains susceptible to different
disasters, both artificial and natural. It is important to understand the nature of data to any organization, thus
safeguarding it from unforeseen issues; in a landscape where the magnitude and timing of disasters cannot be
controlled or predicted, organizations must seize control over the recovery and mitigation process [19].
Therefore, the concept of cloud disaster recovery settles in, incorporating measures like a strong system
backup and the strategic use of multiple servers dispersed across various locations, effectively curbing the
potential impact of single huge aspects. Luckily, contemporary options offer improved speed, cost-effectiveness,
scalability, and security, surpassing the capabilities of traditional DR approaches [20]. Nonetheless, it's
important to note that disaster recovery in cloud computing defies the idea of a one-size-fits-all solution. Cloud
disaster recovery enables organizations to recover and secure their mission-critical remote systems and data,
amalgamating different strategies and services to back up data, applications, and other computing resources to
dedicated service providers and public clouds.
This infrastructure-as-a-service (IaaS) model guards valuable enterprise assets, housing them remotely on
offsite servers while allowing business continuity by enabling quick recovery in post-disaster [21]. Cloud
technology supports disaster recovery in cloud computing, pushing the ability for expeditious recovery,
increased availability, and utmost flexibility [22]. Organizations can tailor their cloud disaster recovery
solutions to their unique business necessities. Cloud DR provides superior configuration, utilization, and
management ease when colligating with traditional disaster recovery mechanisms [23]. IT departments can
utilize the potential of cloud technology for immediate failover and spin-up, thus improving the agility of their
response. Additionally, this service automates numerous processes, allowing organizations to scale their
solutions up or down in collaboration with their business demands.
2.1 How it works
Cloud DR helps store important applications and data at an offsite data center and failover to a virtual host or
secondary site during an incident. It allows businesses to recover from a disaster swiftly and get back up and
running [24], thus minimizing the effect of disruptive events. Rather than Cloud DR loading servers with the
application software operating system and patching to the last used configuration like in traditional DR, it
incorporates the whole server, including the operating system, applications, data, and patches, into a virtual
server of a software bundle [25].
The vendor later backs up or copies the virtual server to the offsite data centers. And since the virtual server
does not depend on hardware, the vendor can migrate the applications, OS, patches, and data between data
centers quicker than traditional DR strategies. Therefore, cloud providers should ensure that systems and
applications are regularly updated and patched [26]. In addition, since vendors can automate most cloud DR
functions, it reduces errors and needs minimum involvement on the part of users. The cloud-based recovery
process is very fragile, and organizations should understand its methodologies carefully to ensure a successful
recovery such as;
2.1.1 Backup and restoration
This is the cheapest, fastest, and easiest way to recover from cloud computing disasters. Additionally, it assists
in curbing regional events such as natural disasters by replicating and storing data in different locations
geographically [27].
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International Research Journal of Modernization in Engineering Technology and Science
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Volume:05/Issue:11/November-2023 Impact Factor- 7.868 www.irjmets.com
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2.1.2 Pilot testing
This is a strategy where organizations only replicate the central services of their needs and functions. Thus,
they are only required to replicate a small central part of their IT infrastructure and minimally functional
replacement during the distractions.
2.1.3 Warm standby
This happens when organizations scale down their version to their fully functional environment available and
always running in a separate location from the core server [28]. Therefore, organizations will have backup
versions in a different location when any issue strikes.
2.1.4 Multi-site deployment
Compared to all the above, this is cost-intensive as it provides the most comprehensive approach including
running an organization's full workload simultaneously through different regions.
2.2 Creating a Cloud DR plan
Here are the steps to follow to create a successful DR plan;
2.2.1 Analysis
This phase incorporates a comprehensive risk assessment and effect analysis of the organization's IT
infrastructure and workloads. After knowing the risks, the IT department can identify potential threats,
disasters, and vulnerabilities [29]. The organization should then be able to evaluate how its current
infrastructure is poised against the identified vulnerabilities and determine the RPO and RTO workloads.
2.2.2 Implementation
This stage allows the organization to outline the technologies and steps required to address the disasters. The
idea is to curate a plan that allows organizations to promptly implement all the needed measures while dealing
with the disasters [30], and it includes;
- Preparedness is a detailed plan that explains how the organization will respond during the disaster events
and includes the roles and responsibilities.
- Prevention is the organization's measures to reduce threats and vulnerabilities, like regular updates and
employee training.
- Response – The organizations' automated and manual measures will apply to the disaster occurrence.
- Recovery includes automated and manual measures to assist the organization in quickly recovering the
required data and resuming normal operations.
2.2.3 Testing
Organizations require testing for their cloud-based disaster recovery plans and strategies and regularly update
them. This allows employees to remain adequately trained and relevant plans are made. Testing also allows
automated technologies and processes to be correctly working and ready for use [31]. In addition, it helps
detect gaps in disaster recovery solutions. Here is what organizations should consider before deploying a
disaster recovery plan;
- The disaster recovery strategy should be included in the business continuity plan, including RTO and RPO
definitions, to assist in deciding which cloud services an organization will require and improve cost efficiency.
- The strategy should clearly define the RTO and RPO for disaster recovery since they create the center of the
recovery plan and the types of services an organization will need
- An organization should curate cloud-based disaster recovery strategies that align with the organization's
objectives and goals.
- An end-to-end recovery strategy should be designed and include each business aspect the organization
requires to remain operational.
- An organization should create tasks that ensure the disaster recovery plan process runs seamlessly.
2.2.4 Compile proper and comprehensive infrastructure documentation.
Garner proper records relating to your organization's infrastructure, such as system configurations, network
diagrams, software licenses, and vendor contacts, will help in a thorough and effective recovery process. To
ensure your IT infrastructure is strong, consider implementing a multi-layered security approach like firewalls,
e-ISSN: 2582-5208
International Research Journal of Modernization in Engineering Technology and Science
( Peer-Reviewed, Open Access, Fully Refereed International Journal )
Volume:05/Issue:11/November-2023 Impact Factor- 7.868 www.irjmets.com
www.irjmets.com @International Research Journal of Modernization in Engineering, Technology and Science
[1393]
intrusion detection and prevention systems, encryption, and routine security audits. Additionally, ensure that
your organization promotes a culture of resilience by training and, lastly, adopt hybrid and cloud solutions to
enhance the flexibility of your IT infrastructure.
2.3 Is cloud DR important?
With today's fiercely competitive business space, organizations find themselves where downtime resulting
from hardware or software failures, cyber-attacks, or natural calamities is unjustifiable. Maintaining
uninterrupted operations has never been more important, given the relentless demand of a 24/7 global
economy [32]. The scope of cybercrimes has experienced a huge shift, with the FBI, for example, experiencing
up to 300% surge in reported incidents since 2020 [33]. Additionally, cyber security ventures project that the
annual costs related to cybercrimes will increase to up to 10.5 trillion by 2025. Also, cybercrimes have evolved
and continue to evolve into structured and unpredictable threats.
Consequently, organizations must engineer comprehensive disaster recovery and data backup solutions that
are the core of business continuity. Beyond that, organizations also deal with sizable disruptions that bring
forth a huge effect on their operations. For example, in 2020, research showed that 44% of surveyed companies
experienced outages due to power failures. Cloud disaster recovery is multifaceted and encompasses
safeguarding organizations from different disasters, thus guarding important workloads regardless of location
[34], whether on cloud storage, hybrid-cloud environment, premises, or multi-cloud environments. A strong
cloud disaster recovery plan is a core against cyber threats and assorted disasters, curtailing downtime and the
attendant financial toll. It also ensures the security and availability of critical data, systems, and applications,
thus underpinning the continuity of business operations.
III. RISK ANALYSIS, BIA, AND BCDR STRATEGIES IMPORTANCE
The value of risk analysis, Business Impact Analysis (BIA), and business continuity and Disaster Recovery
(BCDR) strategies is pivotal in planning for disaster recovery, especially in cloud-based solutions. These
elements are tightly interconnected to enhance an organization's resilience and preparedness in case of any
disruptions. Risk analysis is the foundation of an effective BCDR strategy as it evaluates internal and external
threats and vulnerabilities that could affect the organization's operations, incorporating factors such as cyber-
attacks and natural disasters. Organizations can curate their BCDR plans to address specific vulnerabilities by
understanding these risks and the possibility of their happening. With their redundancy and scalability, cloud-
based solutions often feature severely in curbing identified risks [36].
Additionally, the BIA connects risk analysis to the more practical factors of BCDR planning. It quantifies the
potential effects of disruptions by focusing on more important business functions, systems, and processes. It
allows prioritization of the correct data and systems that are of utmost need and important to be protected
with cloud-based disaster recovery solutions. The BIA informs decisions on RTO and RPO, guiding the selection
of cloud technologies and strategies that align with the organization's business continuity needs. BCDTR
strategies are the plans to ensure an organization can respond, adapt, and recover from different disasters
effectively [37]. Cloud-based BCDR strategies have been essential due to their cost-effectiveness, scalability, and
efficiency. These strategies leverage the cloud's capabilities to recover and secure data, systems, and
applications. They may also include data backup and replication in offsite cloud servers, virtualization
technologies, and geographic redundancy to ensure minimal downtime and quick recovery. Risk analysis and
the BIA insights directly inform the development of these BCDR strategies, allowing the cloud-based solutions
to align with the organization's recovery needs and risk profile.
3.1 BCDR use cases
Organizations make decisions among several disaster recovery strategies to align with their unique asset and
infrastructure protection needs. The complexity of an organization's DR plan may require specialized teams like
those focused on data centers or networking.
3.1.1 Data center disaster recovery
Modern businesses heavily depend on data centers, the core of housing important IT infrastructure, data, and
applications. When a disaster attacks a data center, the effects can be severe, like data loss, huge financial
setbacks, and extensive downtime. Therefore, implementing a comprehensive disaster recovery plan is
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International Research Journal of Modernization in Engineering Technology and Science
( Peer-Reviewed, Open Access, Fully Refereed International Journal )
Volume:05/Issue:11/November-2023 Impact Factor- 7.868 www.irjmets.com
www.irjmets.com @International Research Journal of Modernization in Engineering, Technology and Science
[1394]
important, and a plan typically covers different aspects to ensure the quick and efficient recovery of systems
and data, thus allowing business continuity. As mentioned, risk assessment and BIA, disaster recovery
strategies, recovery objectives, testing, and maintenance are important.
3.1.2 Network disaster recovery
Network disaster recovery focuses on restoring an organization's network infrastructure, enabling the
continued accessibility of critical applications and systems during and after a disaster. This focus is important
for sustaining collaboration, communication, and data exchange among customers, partners, and employees.
Some elements of effective network disaster recovery planning include network redundancy, segmentation,
failover mechanism, and regular testing and monitoring.
The addition of redundant network connections and equipment guarantees uninterrupted availability in failure
cases. Additionally, dividing the network into smaller segments helps isolate issues and minimize the overall
effect of a disaster [38]. The configuration of devices and systems to autonomously switch to alternative
network components or paths when disasters happen. Lastly, the continuous monitoring of network
performance and the periodic execution of tests to uncover potential issues and assess the disaster recovery
plan's effectiveness.
3.1.3 Cloud-based Disaster Recovery (Disaster Recovery as a Service)
This is an as-a-service offering from providers who specialize in disaster recovery. Cloud disaster recovery,
often known as DRaaS, represents a modern approach to safeguard an organization's applications and data by
leveraging cloud-based resources, which introduces benefits such as cost savings by eliminating the need for
costly on-premises infrastructure and the ability to pay exclusively for the resources needed thus cutting both
operational and capital expenses, the scalability of cloud DR to seamlessly adapt to the changing needs of
expanding businesses thus ensuring constant supply and offers flexibility such as complete data restoration or
partial recovery of specific systems and applications. Cloud-based DRaaS providers run ready-made platforms
for disaster recovery while organizations leverage providers' prowess to tune their cloud operations for
failover [39].
IV. WHY BCDR STRATEGIES MATTER FOR ORGANIZATIONS
BCDR strategies greatly influence different modern enterprises, thus offering important safeguards for the
future. Understanding the possible effect of a disaster on an organization is an important aspect of responsible
planning. He is why;
1. Mitigating financial risk – Extended disruptions ev, in short ones, can lead to immediate and long-term
consequences, possibly driving clients away. BCDR strategies are a financial safety allowing quick recovery of
operations while minimizing the cost and duration of downtime.
2. Safeguard customer trust and brand reputation – The Company's reputation is bound to be ruined,
especially with the advent of social media. BCDR strategies demonstrate a commitment to service continuity
and customer satisfaction, thus reinforcing trust and encouraging customer loyalty.
3. Ensuring adherence to legal and regulatory compliance – different sectors require stringent disaster
recovery and business continuity measures, particularly as a matter of legal requirement. For example, HIPAA
Compliance necessitates disaster recovery. BCDR allows adherence to these regulations, averting potential legal
relations and possible penalties.
4. Enables quick recovery – time is important when dealing with disasters, making RTO essential. Effective
disaster recovery planning must be equipped to meet these RTO targets with suitable technical solutions.
Adopting cloud computing DR services, for example, significantly increased RTO margins.
5. Data and intellectual property protection – the integrity and security of data remain important even during
a disaster. BCDR strategies prioritize data protection and backup, safeguarding critical information and
intellectual assets.
V. THE FUTURE OF BCDR
With today's shift, it is without doubt that the BCDR landscape is poised for even bigger change, especially with
the rising number of threats [40]. These are some of the developments projected to come up;
e-ISSN: 2582-5208
International Research Journal of Modernization in Engineering Technology and Science
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www.irjmets.com @International Research Journal of Modernization in Engineering, Technology and Science
[1395]
Artificial intelligence
AI influence is poised to influence BCDR planning greatly with its cognitive abilities that can help BCDR teams
make decisions, streamline BIA imp, rove risk assessment, and give data-driven insights and predictive
capabilities.
The role of vendors
Managed service providers are actively engaging in backup and disaster recovery services. This sector is poised
to become a comprehensive source of business continuity solutions, mainly dealing with Small and Medium-
sized businesses needing more internal expertise. As trusted advisors, vendors are positioned to guide clients
in BCDR planning, offer technology recommendations, and even curate DRaaS through strategic partnerships or
independently with dedicated providers.
Merging business continuity and cyber security
The relationship is slowly gaining prominence, especially with the cyber threat numbers increasing with
ransom ware attacks, and is likely to intensify and persist. In the past, separate functions were used, but with
this convergence, cyber security and BC work together to improve organizational resilience.
Reviving storage
With the attacks, there comes the need to encrypt backup files. Organizations are rediscovering the value of
time-tested tape storage, and by creating an air gap that isolates important recovery files from the corporate
network, tape storage reclaims as a reliable safeguard.
VI. CONCLUSION
Cloud disaster recovery is vital in contemporary business continuity planning, equipping organizations with
dependable, scalable, and resilient solutions to shield their essential operations and data. With the growing
dependence on digital assets and services, adopting cloud-based disaster recovery is important for
organizations aspiring to excel in a changing and interlinked business scope. By utilizing the capabilities of
cloud-driven disaster recovery solutions and addressing potential obstacles proactively, organizations can
bolster their readiness to confront unforeseen disruptions, secure their important assets, and sustain seamless
operations. Cloud disaster recovery empowers organizations to strengthen their resilience, instill confidence in
their business continuity and disaster recovery capabilities, and flourish in an increasingly competitive and
unpredictable business landscape. Embracing cloud disaster recovery ensures organizations confidently
traverse challenges and uncertainties in the digital age, thus preserving their data integrity and business
continuity.
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( Peer-Reviewed, Open Access, Fully Refereed International Journal )
Volume:05/Issue:11/November-2023 Impact Factor- 7.868 www.irjmets.com
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[1396]
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